Shot Pro

Pelton Company, Inc.

C:\V6MAN\SHOTPRO\ SPCOV.DOC

PELTON SHOT PRO

11Jan01

The information contained herein is proprietary to Pelton Company, Inc. The issuance of this sheet does not constitute a right to copy or distribute this material or construct the equipment described herein.


C:\V6MAN\SHOTPRO\ SPCOV.DOC

Headquarters:

Shipping Mail Pelton Company Inc. Pelton Company Inc. 1500 N. Waverly P.O. Box 1415 Ponca City, Ok 74601 Ponca City, Ok 74602

Technical support

Email: [email protected]

Access and download the latest Pelton information and upgrades:

• Product information • Firmware releases • Software programs • Training schedule • Manuals and documentation in PDF format

From our World Wide Web site by entering our URL into your Internet browser:

http://www.peltonco.com Phone and Fax:

USA (580) 762-6341 phone (580) 762-0023 fax


01Feb00C:\V6MAN\SHOTPRO\SPTOC.DOC

SHOT PRO TABLE OF CONTENTS

SAFETY.......................................................... 1.1.1

INTRODUCTION AND SUPPLEMENT INFORMATION......................... 2.1.1

SHOT PRO FEATURES............................................... 3.1.1

OVERVIEW OF NORMAL OPERATION.................................... 4.1.1

ADVANCE II ESG OPERATION........................................ 5.1.1

ADVANCE III VIB PRO ENCODER OPERATION........................... 5.2.1

SHOT PRO ENCODER OPERATION...................................... 6.1.1

SHOT PRO MASTER ENCODER OPERATION............................... 6.2.1

SHOT PRO SLAVE ENCODER OPERATION................................ 6.3.1

MASTER/SLAVE/REPEATER MODE...................................... 6.4.1

SHOT PRO MODE................................................... 6.5.1

AIR GUN MODE.................................................... 6.6.1

GPS WITH SHOT PRO SYSTEM........................................ 6.7.1

PELTON SUB-METER GPS SYSTEM...................................... 6.8.1

RADIO COMMUNICATIONS CARD (RCC)................................. 6.9.1

PARAMETER ENTRY ENCODER MODE.................................... 7.1.1

SHOT PRO DECODER OPERATION...................................... 8.1.1

PARAMETER ENTRY DECODER MODE.................................... 9.1.1

INSTALLATION AND REPAIR......................................... 10.1.1

SHOT PRO COMPUTER PROGRAM....................................... 11.1.1

SP1FLAGS COMPUTER PROGRAM....................................... 11.2.1

BACKPACK OPTIONS................................................ 12.1.1

RECORDING TRUCK INTERFACE....................................... 13.1.1

BLOCK DIAGRAMS.................................................. 14.1.1

UPHOLE SIMULATOR OPTION......................................... 15.1.1

SAFETY.......................................................... 16.1.1

DOCUMENTATION................................................... 17.1.1

Safety Page 1.1.1


22Apr98C:\V6MAN\SHOTPRO\SPCH01.DOC

PELTON SHOT PRO

SAFETY

This equipment is used with explosives; extreme caution should beobserved. Do not use this equipment if not familiar with safetyregulations.

# Always follow correct procedures.# Keep everyone away from the Shot point.# Observe local and company safety regulations.# Do not shoot in urban areas.# Do not shoot near power lines. Cap wire can easily come in

contact with power lines after explosion.# Do not shoot close to high power radio transmitters.

After Shot

# Make sure all charges have been detonated# Record and report any shots or caps which were not detonated

Shot Pro Unit

# High voltage firing line output 400 volt @ 30 amps for 1.2 mSec# High Voltage output is always electrically shorted together

unless ARM button is pressed.

For additional Safety Precautions see Safety Section of thisManual

Intro and Supplement Page 2.1.1


01Nov99C:\V6MAN\SHOTPRO\SPCH02.DOC

PELTON SHOT PRO

INTRODUCTION

The Pelton Shot Pro System is a microprocessor based system for use inseismic exploration to control explosive shot firings.

The system consists of:

# Pelton Advance II ESG Vibrator/Shot control unit or Shot Pro unit setup as Encoder in the recording truck.

# Mobile Shot Pro Decoder System at the shot point.

The Mobile Shot Pro Decoder System consists of;

# The Shot Pro Unit.

# A mobile radio(or wireline system).

# 12 volt battery.

# Optional Uphole geophone.

# Optional GPS receiver.

SUPPLEMENT

The following section explains the most recent changes to the system. The information contained in this section supercedes any conflictinginformation found later in this manual. Multiple revision documents maybe included. This section allows users familiar with the Shot Pro Systemto quickly update themselves on the latest changes.




VERSION 10.00 TO VERSION 11.00

SHOT PRO ENCODER CHANGES

# Manual Arm required before the unit receives a remote fire command canbe selected. A hardware jumper selects if the unit automatically armsfor a remote fire command or the unit requires a manual arm.

# If jumper 7 (SD1 pin 7-10) on the Digital Card is removed the unitrequires a manual arm before each remote fire command.

# If jumper 7 is installed the unit will automatically arm.

# An alarm message is automatically transmitted over the radio when unitis armed and waiting for the fire command if Jumper 7 is removed.

# Timing Reference Marks have been added to the Time Break Aux. Output.The Timing Marks occur after Clock Time Break and Radio Reference Delayplus 1 sec, 1.5 sec and 2.0 seconds. The Radio Reference Delay entryis used to align the Timing Marks with the Decoded Clock Time BreakSignal, Confirmation Time Break Signal and the Uphole Signal.

# Confirmation Time Break - If the current to the cap does not flow orif the current is greater then 4 amps for 4 mSec then the Systemdetects an error and the Confirmation Time Break pulse is notgenerated.

# Radio Status data is shown at the bottom of the display. These numberscan be decoded for information about the last Radio Reception.

# Display shows if unit is in the Test Mode. The status of the ManualArm or Auto Arm selection is displayed.

SHOT PRO PASSWORD

A password can be selected to disable keyboard access. The password cannot be changed unless "SHOT" is entered to verify the new password. Apassword of 0000 disables the password.




SHOT PRO DECODER

# Fire Pulse extended from 1 mSec to 4 mSec.

# Test Menu changed.

# "C" is used to Calibrate. Calibration is only done when selected.

# ARM button is used to test cap.

# Charge button is used to test geophone.

# "G" is used to change error limits.

# Geophone Noise is displayed in the ARM and Charge menus. Noise isupdated every 1 second. The display shows peak noise during last 1second.

# Uphole Pick Method Changed - A 3 sample noise filter has been added to all pick methods. Four new pick methods were added to move thepick closer to the zero crossing.

# Post Fire Service - Length of sub-carrier was increased.




SHOT PRO SYSTEM VERSION 2

New features added to Shot Pro System:

Firmware: (Ver 11.00 to Ver 2.001)# Master/Slave/Repeater mode capabilities.# Recording Truck Interface feature.# Encoder displays and stores Uphole information without requiring

external computer.# Improved Ready Tone feature.# Crew number added to start codes, total of 768 unique start codes

available.# Software selection of speaker polarity for improved radio performance.# Separate zero time adjustment at each Decoder.# Remote external fire of Decoder.# Download computer data directly from Encoder or Decoder.

Hardware: (Ver 1 to Ver 2)# New rugged front panel design.# Removed filter from the Encoder’s analog uphole data output.# Changed maximum contrast adjustment from 110°F to 130°F.# Added +5VD and non-isolated Time Break signals to JF connector.

Software: (Ver 2.11 to Ver 2.15)# ShotPro.exe allows user to pick new uphole time.# Export File option to save Flag Number, User Pick Time, File Number and

Comments data to ASCII file.




NEW ENTRIES

Encoder Menu A:

Master/Slave – Select “off” for normal Encoder Mode. Select “1” forMaster Encoder Mode. Select “2” for slave or repeater mode. See sectionon Master/Slave/Repeater Mode.

Encoder Menu B:

1. Radio Polarity – allows selection of radio speaker polarity. Selectnormal or reverse for best radio telemetry performance. See speakerpolarity in Installation section of manual.

2. Rec Sys Type – selects recording system protocol used for serialtransmission of uphole data. See RTI section of Manual.

3. Shot Count – allows resetting shot count for saving the Uphole datafrom the Decoder.

Encoder Crew ID:

Crew ID – The crew Id number is used as part of the start code toprevent accidental firing of the Decoder units. The Encoder’s crewID must match the Decoder’s crew ID for the Decoder to fire.(Note: Decoder crew ID=15 allows the Decoder to fire with any Encodercrew ID#)




NEW ENTRIES

Decoder Menu A:

2. Crew ID – Crew ID Number is an entry from 0-15. When “15” is enteredin the Decoder, the Decoder will fire on any commanded crew numberfrom the Encoder. Crew ID 0-14 must match the crew ID commanded fromthe Encoder for the Decoder to fire. When using an Advance II ESGas an Encoder, the crew # is selected by the Sweep Number Selection.Ver 11.00 and earlier firmware ignored this selection.

3. Ready Tone = OFF, TONE, MSG

OFF - Nothing is transmitted when Decoder is armed and charged.Tone – A 322 Hz Ready Tone is transmitted to the Encoder when theDecoder is armed and charged.MSG - A message containing the Box ID# is transmitted to the Encoderwhen the Decoder is armed and charged. The transmitted Box ID# willbe displayed when the Shot Pro Encoder is in the Fire Menu.

Decoder Menu C:

1. Radio Polarity – Software selection of radio speaker polarity eithernormal or reversed. All Decoders must be set to same polarity orstart times will be different.

2. Decoder Delay (0.00mSec to 9.99mSec)- Normally set to 0.00mSec. Thisentry is used to delay the firing of the shot. All Decoders must beset the same or start times will be different.

3. Remote Fire (On/Off) – When set to “On”, the Decoder can be firedremotely by applying 5 volts to the Start Line. Decoder unit mustbe “Armed” and charged for the Start Line to be active. Normally setto “Off”.

4. Default Parameters – allows default parameters to be loaded intoEncoder and Decoder selections. Must re-enter zero time and otheruser entries after default entries are set. Press “G” to startprocedure then “1” to verify. List of default selections follows.




Default Selections Encoder:

Encoder Menu A

1. Start Delay 1.000 Sec2. 0 Time Adj 0.56 mSec3. RAD REF DLY 0.80 mSec4. Master/Slave OFF5. Memory Load ON6. Password No Change

Encoder Menu B

1. Radio Polarity NML2. Rec SYS Type OTHER3. Shot Count No Change4. Normalize ON

Default Selections Decoder:

Decoder Menu A

1. Flag # 123456782. Box ID# 0 Crew ID# 03. Start Code 0 Ready Tone MSG4. PSS Type 00 Baud Rate High5. Memory Load ON6. Auto OFF OFF

Decoder Menu B

1. Shot Count No Change Normalize On2. Blank Time 0.53. Pick Method 14. Uphole Gain 20dB Auto Gain OFF5. HV Set 3806. Password No Change

Decoder Menu C

1. Radio Polarity NML2. Decoder Delay 0.00 mSec3. Remote Fire OFF4. Default Parameters




SHOT PRO VERSION 2.002New Selections

Radio Speaker Polarity – Allows software polarity selection of thespeaker signal from the radio. Polarity can be set to Normal polarity orReversed polarity. The default Parameter Entry sets this to Normalpolarity. This entry was titled Radio Polarity with the firmware Ver2.001 release. All firmware prior to ver 2.001 set speaker polarity topositive.

Radio Microphone Polarity – Allows software polarity selection of themicrophone signal to the radio. Polarity can be set to Normal Polarityor Reversed Polarity. The Default Parameter Entry sets this to NormalPolarity. All firmware prior to Ver 2.002 set the microphone polarity tonormal. The Shot Pro Decoders and the Advance II vibrator electronicsradio microphone polarity are reversed by the hardware. Set the radiomicrophone polarity to reverse to match the Advance II vibrator wiring.

Note: For timing consistency, the Encoder and all Decoder’s microphoneand speaker polarity entries must not be changed after timing has beensetup. All of the Decoders should have their polarity entries set thesame. The radio wiring must not be changed without checking the timingbetween the Encoder and Decoders.

PFS Data = ON/OFF – Selection allows the Post Fire Service (PFS) to bedisabled. The PFS is the uphole data which is transmitted after the shotby the Decoder This entry should normally be set to 1 = “ON” to enablethe PFS transmission. The Default Parameter Entry set this to PFS Data= “ON”.

Rec Sys Type – The Recorder System Type selection has three entries. This entry affects the Serial Recording Truck Interface. Select “0” forno serial communication between recording system. Select “2” for Sercelserial protocol, and select “1” for the standard recording systemprotocol.

UH Display Time – Uphole Display Time has been added to the Encoder MenuB, Selection 5. This entry selects the amount of time the uphole signalis displayed in the Encoder after a shot. The range is 00 seconds to 99seconds.

SHOT PRO VERSION 2.003

GPS position request can be done while receiving new GPS positions.

Priority of demodulating GPS RTCM corrections has been increased.




SHOT PRO SYSTEM VERSION 3.00 FIRMWARE

Two new features, Mode and Airgun Mode, for the Decoder:

Mode:

Selects either Advance II (A II) or Vib Pro (VPRO) Mode. Vib Promode can receive Vib Pro Start Codes, retransmit PFS in Vib ProFormat. Vib Pro Ready Message which includes GPS Position.

Vib Pro Encoder: The Shot Pro Box ID number has to be enabled tofire unit. To make sure to fire unit, enable all vibrators. CrewId still has to match the Decoder crew ID.

Air Gun mode:

Selects if Airgun mode is "ON" or "OFF".Note: When "ON" the Decoder can fire at anytime without the Chargeor Arm buttons being pressed.

• After Fire Pulse is Started, Shot Pro will look for Serial Datato transmit to Recording system. (Up to 110 Bytes)

• A Pulse is started approximately 50mSec prior to Fire Pulse on theAnalog Data Line.

• An extra Second has been added to the total turn around time.

• The Confirmed Time Break (CTB) is measured with a switch closureon the Start Active Line.

Default Parameters:

Mode = "A II" and Airgun Mode = "OFF". When replacing with thisFirmware, hand enter these selections.




Ver 3.003Added a new selection to MODE - SPRO for Shot Pro.

MODE:ADVII - The Shot Pro operates with the Advance II SystemVPRO - The Shot Pro can be fired from a Vib Pro Encoder andsend Vib Pro Hamming Coded PPS.SPRO (NEW) - The Shot Pro Encoder will send ADVII Start Codesand the Shot Pro Decoder will Vib Pro Hamming Coded PPS. Thisfeature works in the three Encoder modes (Normal, Master andSlave).

Added Mode to the Encoder side of the Shot Pro.

Repaired a problem with the position being displayed scrambled onthe Decoder Fire Menu after sending the Shot Pro History to theradio.

Ver 3.004

Changed C.T.B. detection to when current starts flowing greater than4 amps.

Ver 3.005

Removed P-Squiggle from Display.Added GPS Navigation. Display 3 flags at a time, shows flag number,bearing and distance.• Load 500 flags through serial port.• Load 1 flag through Adv II ESG by radio.

Enhanced the radio reception when collecting GPS data.

Ver 3.006

Added Pre-Start adjustment to Decoder. Adjustment of 145mSec beforeFire Pulse.

Ver 3.007

Recorder Start Pulse on the Slave Encoder (SCK1) is started earlier. Thepulse is started approximately 1.5 seconds prior to Time Break.




Ver 3.008

1. Modified the GPS reception to accept the $GPGSA NMEA string. Theellipsoidal height, PDOP, VDOP, HDOP, and Age of Correction are sentback with the GPS data. Same as PSS Type 64 in Adv. II. This isavailable in AdvII, VibPro and ShotPro modes.

2. Added to GPS reception the capability to decode the $PTNL, GGK messagefrom a Trimble GPS RTK receiver. When this message is received, theRDOP and Quality Indicator is sent within the GPS data. The RDOP isplaced in the HDOP field in the SEG-P1 file and the Quality Indicatoris placed prior to the latitude in the SEG-P1 file. This is availablein AdvII, VibPro and ShotPro modes.

3. Shot Pro accepts RTCM corrections from RCC Module (A3 protocol). TheShot Pro needs to be in Decoder mode to receive the corrections. Thisis not dependent on MODE (AdvII, VibPro, or ShotPro).

4. Single radio option is working on Shot Pro. The Ref Marks (Z) line isnow used as the radio control line to the RCC module. The Shot Proradio plug is connected to the RCC module and the RCC module connectsto the radio. The Shot Pro in Encoder mode and in the Radio Mode menu,the RCC module is turned OFF to sending RTCM corrections. The RCCmodule is stopped from transmitting RTCM corrections when the Shot ProEncoder sends Start Codes (turned back ON when the reference pulses areover) and when sending warning tones in the Fire menu. AdvII, VibPro,ShotPro.

5. Shot Pro Decoder receives the A3 protocol Position Request and sendsthe A3 protocol position back. Multiple decoders can be selected. Request is done through either the Vib Pro Encoder or the RCC module.

6. KOP features added to Shot Pro with SHOTKOP computer program. This isavailable in AdvII, VibPro and ShotPro modes.

• Direct Link – Connect to Computer port on Shot Pro.• Radio Link - Connect computers to an RCC module to radio transmit

and receive the KOP data. If using a Vib Pro Encoder, use theVib Pro Encoder to transmit and receive the KOP data over theradio.

7. Slave Encoder can now send RTI information to the Recording System.




8. Slave Encoder will send the Slave Encoder’s Box ID and Crew ID in thestart code when the Start is manually initiated. Prior, the SlaveEncoder would send what the Master Encoder last sent in a start code.

9. New Air Gun modes.• OFF = Air Gun mode is OFF.• AG = Original Air Gun mode now works in ShotPro mode. AdvII and

ShotPro modes.• AG - = New Air Gun mode. Shot Pro Decoder will send Master Start

Codes when the SCK2 (Z, Ref Marks) line is low (0 V, levelsensitive) and the Decoder is in the Fire screen. The rest of theAir Gun features will work. AdvII and ShotPro modes.

• AG + = New Air Gun mode. Shot Pro Decoder will send Master StartCodes when the SCK2 (Z, Ref Marks) line is high (+5 V, levelsensitive) and the Decoder is in the Fire screen. The rest of theAir Gun features will work. AdvII and ShotPro modes.

10. Shot Pro Decoder, the SCK1 (Y, Rec. Start) line mimics the pre-startpulse that occurs on the Analog Data line. AdvII, VibPro, ShotPromodes.




Ver 3.009

RTI information was not going out in Slave mode while in ShotPro mode.Worked in AdvII mode. This problem was resolved.

Set bit 3 in Status byte of PFS information if the PFS is a re-transmit.

Save Sweep ID in memory of the Shot.

Problem: In Slave mode, received a start from the Master Shot ProEncoder and no Decoder PFS, showed last good PFS, if did manual fire andno Decoder PFS, showed flat line on bottom of display. This now workscorrectly and shows the flat line at the bottom of the display if noDecoder PFS is received and start through a Master Start Code or manualfire.

The Uphole window can now shift according to the Blanking Time entry onthe decoder. If the Blanking time is set to the default of 0.5milliseconds, the Uphole window will not be shifted, the original 0 – 60-millisecond window will be used. The pick value sent back in the PFS iscorrect for the shifted window and is sent to the recording system.

For example: The blanking time is set to 30 ms, the Uphole window sentback will be from 30 – 90 ms. If the first break occurred at 85 ms, thenthe first pick value will be 85 ms in the PFS. The computer programs donot reflect this change yet. The Blanking time is sent back in the PFSin the Pre-fire voltage word. The most significant byte is the blankingtime value then multiply by 0.5 ms. The least significant bit of theleast significant byte distinguishes if the upper byte is blanking timeor pre-fire voltage. If the bit is 0, the upper data is pre-firevoltage, if the bit is 1; the upper byte is the blanking time.

Ver 3.010

When in Slave mode the GPS receiver had to be disconnected from theprocessor to allow consistent Master Start Code reception. This happenedbecause the GPS receiver is connected to the RTI port on the Shot Pro andthe Shot Pro thought it was receiving important RTI information. Now,when the Slave Shot Pro Recorder entry is changed to NONE, the RTI COMport is turned OFF. The GPS receiver data now cannot harm the MasterStart Code reception in the Slave Encoder.

Features Page 3.1.1


31 Dec 98C:\V6MAN\SHOTPRO\SPCH03.DOC

PELTON SHOT PRODYNAMITE FIRING SYSTEM FOR SEISMIC EXPLORATION

FEATURES:

# Low Power C-Mos Design, Automatic Power Saving Modes.

# Compatible with Pelton GPS System and Recording Truck InterfaceSystem.

# Interfaces with most commercial radios, using Pelton's field provenradio modulation technique.

# Firing accuracy " 20 micro seconds (timing error between time breakin Encoder and when voltage is applied to cap).

# Graphic display for insuring top performance in the field.

# Operates by radio or wireline link.

# Pelton's Version 5 or 6 ESG and Vib Pro Encoder can be used for bothdynamite and vibroseis operation. Allows easy and quick transitionsbetween vibroseis and dynamite operation.

# Uphole geophone digitized at 0.5 mSec sample rate.

# Automatic and accurate uphole time pick.

# Quality control shot status message automatically returned torecorder.

# Provides an analog output for recording of the uphole signal, andfor verifying timing synchronization.

# Shot Pro Computer Program in Recording Truck allows viewing ofuphole signal, verifying time pick, summarizing large numbers of QCrecords, and downloading all data stored in shooting boxes.

# Encoder and Decoder boxes store up to 999 quality control records,which can be downloaded into a computer at a later time.

# Uphole geophone and Cap Line resistance tests.

# Recording System Interface Capabilities.

# Master Slave Modes.

# Local Fire Capability at Shooting box.

Features Page 3.1.2



HIGH VOLTAGE OUTPUT AND SAFETY FEATURES:

# High voltage Output 400v maximum for 4 mSec maximum.

# Normal output 8 joules.

# Firing pulse automatically terminated after 4 mSec.

# Firing current up to 30 Amps.

# High Voltage Outputs are always electrically connected togetherunless the ARM button is pressed.

# Each Shot Pro Shooting Box can be addressed individually. Inappropriate boxes will not fire even if ready when a shot commandis sent. Alternatively, system can be configured so that any boxwill fire when a command is sent.

# High security from unauthorized use. Communications with a PeltonStart Code Generator required for actual detonation of charges.

# Double safety design preventing unintentional or unexpecteddetonation unless at least two hardware devices fail.

# Common mode protection from electrical impulses on the firing anduphole lines.

SPECIFICATIONS:

# Operating Temperature Range: -40E C to +60E C

# Input voltage: 10 - 36 V for control circuitry10 - 15 V for high voltage circuitryReverse polarity and over voltageprotected

# Current: 1.2 Amps charging0.26 Amps normal operation0.23 Amps stand by mode

# Size: 8.5" (21.5 cm) x 11" ( 28 cm) x 3.5"(9 cm)

# Weight: 8 Pounds (3.6 Kilograms)

Operation Page 4.1.1


16Sep99C:\V6MAN\SHOTPRO\SPCH04.DOC

Normal Operation Overview of Shot Pro System:

# The operator of the mobile system (the Shooter), first findsthe cap location and follows the safety guidelines similar tothose outlined in the safety and precautions section at the endof this manual.

# The Shooter then records the position of the shot with the GPSreceiver. This is done by using the keypad and display on thefront panel of the Shot Pro Unit.

# The flag number used for this shot point is then entered on theShot Pro Unit.

# The geophone and cap leads are then connected to the Shot Prounit and impedance of each line is tested using the Test Menuof the Shot Pro Unit.

# After verification of geophone and cap connections, the caplines should be shorted together to avoid accidental explosion.

# The Shooter then waits for the Observer in the Recording Truckto signal him that he is ready for the shot.

# When the Observer is ready, the shooter connects the cap leadsto the Shot Pro Unit and again tests for proper connection.

# The Shooter makes sure he is not touching the high voltagelines, enters the Arm Mode and presses the charge and armbuttons on the Shot Pro unit.

# When the Shot Pro is charged and ready, the unit canautomatically notify the Recording Truck or the Shooter canmanually notify the observer verbally.

# The Advance II ESG or Shot Pro Encoder, in the recording unit,then sends a start code over the radio (or wireline) toinitiate the blast.

# The Shot Pro Unit receives this code and compares the unit'sstart code, crew ID # and ID # with the start code, crew ID #and ID # transmitted. If they match, the unit fires the cap.

# The Shot Pro records and stores the Analog geophone signal anddetermines uphole time.

# The Shot Pro Unit then automatically sends all information backto the Recording Truck.

Operation Page 4.1.2



# Exactly 1 second after the blast, a pulse appears on the Analogoutput of the Encoder which confirms the reception of thedigital message from the Shot Pro Unit. This signal is calledDecoded Clock Time Break.

# At 1.5 seconds the Confirmation Time Break signal appears.

# At 2.0 seconds the Analog uphole signal is reproduced.

# The computer in the recording truck will display the upholesignal, the uphole time pick, GPS position, flag number,results of all tests, and other critical parameters. There isalso a comment field for the Observer to enter data (like tapeand file number) to the record. All of the data is stored todisk with a time and date stamp for later analysis. The ShotPro Software program allows the shots to be reviewed andcomments to be edited.

# The data is also automatically stored in the Encoder andDecoder Shot Pro Unit and can be downloaded at the day’s end.

ESG Operation Page 5.1.1



ADVANCE II ESG OPERATIONThe Advance II ESG can be used to control both vibroseis and dynamiteoperation. Refer to Advance II ESG Manual for more detailed informationon installation and operation. This text explains the requirements forusing the Advance II ESG with the Shot Pro System.

REQUIREMENTS:Version 5H or 6C Firmware or laterComputer Communication SystemAdvance II ESG Version 5 or 6

Vibra*Sig Module must be modified for high baud rate option.

ESG Set Up for Shot Pro# Enter Sweep type 500 for Shot Pro operation.# Select vibrator number to match Shot Pro unit ID number.

Setting the vibrator number to 15 enables all Shot Pro Units.# Select sweep number to match Shot Pro Decoder Crew ID number.

Use sequence number thumbwheel to select proper sweep number.# Enable the vibrator start switch to allow the Shot Pro's ready

tone to fire the ESG.# Load the special Stored Values sweep if timing marks are

desired. See Shot Pro sweep at end of this section.# Select correct Stored Values sweep number.# Set ESG to Stored Values Mode.

Start Time Test:The Shot Pro radio interface is identical to the Advance II vibratorelectronics. If the Shot Pro is using the same radio and connection asthe Vibrator Electronics then the start time should be identical.

To adjust start time compare the time break of the ESG to the highvoltage output of the Shot Pro. Use Selection 6 on ESG to align the timebreak signals.

RADIO REF DELAYThe Radio Reference in the ESG can be used to provide timing marks forthe following signals on the Radio Vib line (See Fig. 1 page 5.1.5):

# Decoded Clock Time Break (1.0 sec.)# Conformation Time Break (1.5 sec.)# Uphole Signal (2.0 sec.)

After setting up Selection 6 with the Start Time Test, use selection 20to delay the Radio Reference pulse at one second to align with theDecoded Clock Time Break signal on the Radio Vib line.




ANALOG CONFIRMATION AND UPHOLE SIGNALSThe Advance II ESG and the Shot Pro Encoder both output an analog signalto the Recording System for Confirmation of proper Decoder operation. Three signals Decoded Clock Time Break, Confirmation Time Break and theUphole Signal are time multiplexed on this one analog line. (See Fig. 1page 5.1.5 and Fig. 2 page 7.1.7)

DECODED CLOCK TIME BREAKThis signal appears on the analog line at about 1 second. It corresponds to the Application of voltage to the cap terminals at thedecoder. This signal is decoded from the returning PFS (Post FireService) data from the Decoder. If the Decoder fires late this signalwill be delayed, if the Decoder fires early this signal will be early.Confirmation Time Break and Uphole Signal are delayed by .5 and 1 secafter Decoded Clock Time Break as a reference, respectively.

CONFIRMATION TIME BREAKThe Confirmation Time Break pulse occurs exactly 0.5 sec plusConfirmation Time Break delay after the Decoded Clock Time Break. TheConfirmation Time Break Delay is defined as the amount of time betweenwhen the Fire Pulse occurs and the current starts flowing over 4 amps.If the current does not flow by the end of fire time (4 mSec), then thispulse will not occur. If this happens, the Decoder assumes the cap didnot fire.

UPHOLE SIGNALThe analog Uphole Signal recorded by the Decoder is reproduced exactly1.0 second after the Decoded Clock Time Break Signal.

ALTERNATING VIBRATOR/DYNAMITE OPERATIONSet all vibrator units to a different start code than the Shot Pro Units.For the dynamite operation select a sweep number with sweep type set to500. Use an unused vibrator sequence number for dynamite operation.

For example Sequence O is used for vibrator operation. It selects startcode O and a sweep number 1. Sweep number 1 has the Vibrator Productionsweep.

Sequence 1 is used for dynamite. It selects start code 1 and sweepnumber 2. Sweep number 2 is used for dynamite shooting.

Sweep number 2 uses sweep type 500. The vibrator number of 15 can be setto enable all Shot Pro Units. Several sequence numbers can be used toaddress individual Decoder Units.




Wire Line CommunicationsCommunications between an Advance II Encode Sweep Generator or Shot ProEncoder and Shot Pro Decoder(s) may be accomplished by wire rather thanby radio. To do this, connect pins A and B of the five pin radioconnector together and connect them to one wire in the cable to be usedfor communication. Connect pins C and E of the five pin radio connectortogether and connect them to another wire in the communication cable. Wire line communications should be satisfactory over several miles ofcable. There are no provisions for voice communications through the ShotPros, but using the paralleling intercom units on the same wire pairshould not cause a problem.

Shot Pro Sweep DefinitionTo make a Stored Values sweep for Version 5 ESG’s in Shot Pro operation,define the sweep as follows:

Notes:

The amplitude for Amplitude Segment 0 and the lengths of AmplitudeSegments 1 and 3 are different for Version 5 and Version 6 sweeps.Link Definition is not used for Version 5 equipment.

No ESG Configuration changes (including bypassing filter channels)are necessary for accurate timing when using these sweeps.

Frequency Definition:FSeg# Start: End: Length: Type: Constant: C/N Phase 0 0 0 3 L 0 [] 90

Amplitude definition: (must define 3 segments)ASeg# Up Taper: Dn Taper: Start%: End%: Length:0 0 0 95 95 .0055

Change to Amplitude Segment 1.ASeg# Up Taper: Dn Taper: Start%: End%: Length:1 0 0 0 0 .9916



Segment Definition:Seg# Frequency: Length: 3 Amplitude: Length: 310 0 01020203(Segment 10 is recommend but use any segment you want.)




To make a Stored Values sweep for Version 6 ESG’s in Shot Pro operation,define the sweep as follows:

Notes:

The amplitude for Amplitude Segment 0 and the lengths of AmplitudeSegments 1 and 3 are different for Version 5 and Version 6 sweeps.Link Definition is not used for Version 5 equipment.

No ESG Configuration changes (including bypassing filter channels)are necessary for accurate timing when using these sweeps.

Frequency Definition:FSeg# Start: End: Length: Type: Constant: C/N Phase 0 0 0 3 L 0 [] 90

Amplitude definition: (must define 3 segments)ASeg# Up Taper: Dn Taper: Start%: End%: Length:0 0 0 95 95 .0055




Segment Definition:Seg# Frequency: Length: 3 Amplitude: Length: 310 0 01020203(Segment 10 is recommend but use any segment you want.)

Link Definition (not used with Ver. 5 equipment):Sweep# = your choiceSweep Link Definition:

Sweep# Sweep Link Definition:Your choice 10 (Use the same SEG# in the Segment Definition step above)

Vib Pro Operation Page 5.2.1


31Dec98C:\V6MAN\SHOTPRO\spch052.doc

ADVANCE III VIB PRO ENCODER OPERATION

The Advance III Encoder can be used to control both vibroseis anddynamite operation. Refer to Advance III Vib Pro Manual for moredetailed information on installation and operation. This text explainsthe requirements for using the Advance III Encoder with the Shot ProSystem.

REQUIREMENTS:

Shot Pro Version 3.0 Firmware or later

Encoder Set Up for Shot Pro# Disable Radio Similarity.# Select ID number to match Shot Pro unit ID number.# Select the special S.P. sweep type 6 (ShotP) if timing marks

are desired.# Set crew number and start code number in encoder to match Shot

Pro Unit. An entry of 15 in crew number at Decoder enablesstarts with all selected crew numbers.

Start Time Test:The Shot Pro radio interface in the VPRO Mode is identical to the AdvanceIII vibrator electronics. If the Shot Pro is using the same radio andconnection as the Vibrator Electronics then the start time should beidentical.

To adjust start time compare the time break of the ESG to the highvoltage output of the Shot Pro. Use Encoder delay entry in the Encoderto align the time break signals.

RADIO REF DELAYThe Radio Reference in the Encoder can be used to provide timing marksfor the following signals on the Radio Vib line (See Fig. 5 page 5.2.4):

# Decoded Clock Time Break (1.0 sec.)

# Conformation Time Break (1.5 sec.)

# Uphole Signal (2.0 sec.)

After setting up Encoder delay with the Start Time Test, Radio ReferenceDelay to delay the Radio Reference pulse at one second to align with theDecoded Clock Time Break signal on the Radio Vib line.




ANALOG CONFIRMATION AND UPHOLE SIGNALSThe Advance III Encoder and the Shot Pro Encoder both output an analogsignal to the Recording System for Confirmation of proper Decoderoperation. Three signals Decoded Clock Time Break, Confirmation TimeBreak and the Uphole Signal are time multiplexed on this one analog line.(See Fig. 5 page 5.2.4 and Fig. 2 page 7.1.7)

DECODED CLOCK TIME BREAKThis signal appears on the analog line at about 1 second. It corresponds to the Application of voltage to the cap terminals at thedecoder. This signal is decoded from the returning PFS (Post FireService) data from the Decoder. If the Decoder fires late this signalwill be delayed, if the Decoder fires early this signal will be early.Confirmation Time Break and Uphole Signal are delayed by .5 and 1 secafter Decoded Clock Time Break as a reference, respectively.

CONFIRMATION TIME BREAKThe Confirmation Time Break pulse occurs exactly 0.5 sec plusConfirmation Time Break delay after the Decoded Clock Time Break. TheConfirmation Time Break Delay is defined as the amount of time betweenwhen the Fire Pulse occurs and the current starts flowing over 4 amps.If the current does not flow by the end of fire time (4 mSec), then thispulse will not occur. If this happens, the Decoder assumes the cap didnot fire.

UPHOLE SIGNALThe analog Uphole Signal recorded by the Decoder is reproduced exactly1.0 second after the Decoded Clock Time Break Signal.

ALTERNATING VIBRATOR/DYNAMITE OPERATIONSet all Vib Pro Units and Shot Pro Units to unique ID numbers. Byplacing only the desired ID numbers in the active Vib group anycombination of Vibrator only, Shot Pro only or both can be selected. Inaddition the start code or crew number can be used to identify uniqueboxes.

For example Sequence 1 is used for vibrator operation. It selects startcode O, a sweep #1, crew #15 and Group A. Sweep #1 has the VibratorProduction sweep.

Sequence 2 is used for dynamite. It selects start code 1 and sweep #2,crew #1 and Group B. Sweep number 2 is used for dynamite shooting.

Sweep #2 uses sweep type = SHOTP. In this example the selected Shot ProID# is only in Group B. Several sequence numbers can be used to addressindividual Decoder Units.




Wire Line CommunicationsCommunications between an Advance III Encoder or Shot Pro Encoder andShot Pro Decoder(s) may be accomplished by wire rather than by radio. Todo this, connect pins A and B of the five pin radio connector togetherand connect them to one wire in the cable to be used for communication.Connect pins C and E of the five pin radio connector together and connectthem to another wire in the communication cable. Wire linecommunications should be satisfactory over several miles of cable. Thereare no provisions for voice communications through the Shot Pros, butusing the paralleling intercom units on the same wire pair should notcause a problem.

Encoder 6.1.1



SHOT PRO ENCODER OPERATIONMANUAL RE-ARM OPTION

1) Press and hold "ARM" button about 3 seconds to turn unit ON.

2) Make sure unit is in Encoder Mode. If not press "C" to changemodes.

3) From main menu press "A" to enter fire menu.

4) Select Shot Pro #, and Start Code # to match decoder unit to becontrolled. Entering Shot Pro #15, enables all Shot Pro Units onthe selected start code.

5) Select remote fire =1 for the Recording System to start the Shot ProEncoder.

6) Wait for the shooter to notify the recorder that he is ready and itis safe to fire the shot.

7) Arm the Encoder.

8) Alarm signal will be transmitted until the Remote Fire signal isreceived.

9) Start Recorder System.

Automatic Re-Arm OptionThe Shot Pro Encoder will automatically re-arm after a firing sequence ifJumper 7 (SD1 pins 7 to 10) on the Digital Card is in place. In thismode of operation, the Shot Pro Encoder will accept a start command fromthe recording system any time after the Fire Mode is initially entered.No alarm tones will be transmitted over the radio in this mode. Thesequence of events for this mode of operation is:

1) Press and hold the "ARM" button about 3 seconds to turn the unit ON.

2) Make sure unit is in Encoder Mode. If not, press "C", then “E”, then“1” to change modes.

3) From Main Menu, press "A" to enter the Fire Menu.

Encoder 6.1.2



4) Select Shot Pro #, and Start Code # to match decoder unit to becontrolled. Entering Shot Pro #15 enables all Shot Pro Units on theselected start code. The cursor up and down keys and numerical keysare used for these entries.

5) Select Remote Fire =1 for the recording system to start the Shot ProEncoder.

6) Press the "A" button to enable firing.


8) Arm the Encoder.

9) Verbally inform the shooter that the start command is coming.

10) Start the recording system.

11) Return to step 7. (The Shot Pro Encoder will automatically get readyfor the next shot after the current firing sequence is completed.)

To interrupt automatic re-arming, press the "D" key.

To change Fire Menu items, press the "D" key, then go to step 3.

Encoder 6.2.1


22Apr98C:\V6MAN\SHOTPRO\SPCH062.doc

SHOT PRO MASTER ENCODER OPERATIONMANUAL RE-ARM OPTION


2) Make sure unit is in Master Encoder Mode. If not in Encoder Mode,press "C", then “E”, then “1” to change modes. If in Encoder mode,press “B”, then “4” for Master/Slave, then “1” for Master. Pressenter to save the selection. Press “D” to return to main menu.


4) Select Shot Pro #, Crew ID # and Start Code # to match decoder unitto be controlled. Entering Shot Pro #15 in Master Encoder, Crew ID#15 in Slave Encoder, crew ID #15 in Decoder, enables all Shot ProUnits on the selected start code.

5) Select remote fire =1 for the Recording System to start the Shot ProMaster Encoder.


7) Arm the Master Encoder.

8) Alarm signal will be transmitted until the Remote Fire signal isreceived.

9) Start Recorder System.

Automatic Re-Arm Option

The Shot Pro Encoder will automatically re-arm after a firing sequence ifJumper 7 (SD1 pins 7 to 10) on the Digital Card is in place. In thismode of operation, the Shot Pro Encoder will accept a start command fromthe recording system any time after the Fire Mode is initially entered. No alarm tones will be transmitted over the radio in this mode. Thesequence of events for this mode of operation is:

1) Press and hold the "ARM" button about 3 seconds to turn the unit ON.

2) Make sure unit is in Master Encoder Mode. If not in Encoder Mode,press "C", then “E”, then “1” to change modes. If in Encoder mode,press “B”, then “4” for Master/Slave, then “1” for Master. Pressenter to save the selection. Press “D” to return to main menu.

3) From Main Menu, press "A" to enter the Fire Menu.

4) Select Shot Pro #, Crew ID # and Start Code # to match decoder unitto be controlled. Entering Shot Pro #15 in Master Encoder, Crew ID#15 in Slave Encoder, crew ID #15 in Decoder, enables all Shot ProUnits on the selected start code. The cursor up and down keys andnumerical keys are used for these entries.

Encoder 6.2.2



5) Select Remote Fire =1 for the recording system to start the Shot ProMaster Encoder.

6) Press the "A" button to enable firing.


8) Arm the Master Encoder.

9) Verbally inform the shooter that the start command is coming.

10) Start the recording system.

11) Return to step 7. (The Shot Pro Master Encoder will automaticallyget ready for the next shot after the current firing sequence iscompleted.)

To interrupt automatic re-arming, press the "D" key.

To change Fire Menu items, press the "D" key, then go to step 3.

Encoder 6.3.1



SHOT PRO SLAVE ENCODER OPERATIONMANUAL RE-ARM OPTION


2) Make sure unit is in Slave Encoder Mode. If not in Encoder Mode,press "C", then “E”, then “1” to change modes. If in Encoder mode,press “B”, then “4” for Master/Slave, then “2” for Slave. Pressenter to save the selection. Press “D” to return to main menu.


4) Select Crew ID # and Start Code # to match Master Encoder unit. Entering Crew ID #15, enables the Slave Encoder to pass all Crew ID#’s and Shot Pro #’s from Master Encoder on the selected start code.

5) Arm the Slave Encoder.

Master/Slave 6.4.1


19Nov99C:\V6MAN\SHOTPRO\SPCH064.doc

MASTER/SLAVE and REPEATER MODES

The Shot Pro unit can be used as a Master Encoder, a Slave Encoder or aRepeater. The Repeater Mode is identical to the Slave Mode except theRepeater does not have a Recording System attached.

In the Master/Slave/Repeater Mode (See Figure 3) the Master Encoderreceives a start from the recording system then sends the Master StartCodes. The Master Start Codes consist of a Box ID # and a Crew ID #. For the Slave/Repeater to receive these codes the Slave/Repeater must beset to the same Start Code as the Master. In addition theSlave/Repeater’s crew # must either be set to “15” or must match the crew# entry in the Master Encoder.

After the Slave/Repeater receives the Master Start Codes, the slaveoutputs a pulse on the SCK1(Y) line to start the Slave Recorder. TheSlave/Repeater unit will then send Start Codes to the Decoder unit. Thesame Start Code, Box ID # and Crew ID # which were transmitted by theMaster are now sent to the Decoder units.

If both the Master and Slave/Repeater are in radio range of the Decoder,then both will receive the PFS uphole Message from the Decoder. After theSlave/Repeater has received the PFS data, the Slave/Repeater willretransmit the PFS data to the Master unit. The retransmitted upholedata will appear on the analog output of the Master unit at 2.5, 3.0 and3.5 seconds.

Prior to Shot Pro firmware version 3.008, when the Slave/Repeater unitwas manually started, the start code would contain the Box ID # and CrewID # that last came from the Master unit in the Start Code. Withfirmware version 3.008 and later, when the Slave/Repeater unit ismanually started, the Start Code will contain the Slave/Repeater’s Box ID# and Crew ID #.

Also, prior to Shot Pro firmware version 3.008, the Slave unit could notsend data to the Recording System. Firmware version 3.008 and later, theSlave unit can receive/send data to the Recording System.

Mode Page 6.5.1


07Jan99C:\V6MAN\SHOTPRO\SPCH065.DOC

Shot Pro Mode

Encoder Operation:

Press "B", then "H" for More, then "6" for Mode.Press "2 for Shot Pro. Press "Enter" to save the selection.Press "0" to return to main menu.

Decoder Operation:

Press "B", then "H" for More two times, then "6" for Mode.Press "2" for Shot Pro. Press "Enter" to save the selection.Press "D" to return to main menu.

This mode makes the Shot Pro Encoder send Advance II start codes. TheDecoder will send the PFS in Vib Pro format. The Shot Pro Decoder willalso send the Vib Pro Ready Message (if selected) when ready to fire.

The Shot Pro Mode gives the user farther starts than Vib Pro Mode andbetter PFS retrieval than ADVII Mode.

Note: Air Gun Mode will not work properly with Shot Pro mode.

Air Gun Page 6.6.1



Air Gun Mode

The Shot Pro unit can be used with an Air Gun controller. The followingdisplays a few ways the Shot Pro is connected to various Air GunControllers.

The configuration in Fig. 6A (page 6.6.5) is using a Syntron Air GunController and a Sercel Eagle SN388 for the Recording System.

The fo1lowing sequence occurs in the Air Gun Mode:1. HydroSeis Nav. System outputs pre-load c1osure when the boat

approaches the Shot point.

2. Pre-load closure is wired to PTT on GM300 radio in the boat.

3. The GM300 in Recorder receives the private line tone and startsrecorder.

4. Recorder starts standard Shot Pro Encoder.

5. On the boat, the Shot Pro Decoder in Air Gun Mode receives thestart command. Shot Pro Decoder must have Memory Load turned“ON” to receive the start command.

6. Analog data output line of Shot Pro Decoder starts the SyntronAir Gun Controller. (Adjustable from 145mSec to 50mSec beforeShot Pro Encoder Time Break.)

7. The uphole data is wired to "signal" from the Syntron. Showswhen Air Guns fired.

8. Start Active is used for CTB and is wired through an isolator toTime Break of the Syntron. (260 mSec max) (Multiply C.T.B.value in the ShotPro/WVSIG programs by 4 for actual C.T.Bvalue.)

9. Shot Pro Decoder starts receiving GPS data from Hydroseis attime break. Receives data up to 1 Sec after time break. (100bytes Max, 9600 Baud, No Parity, 8 data bits, 1 stop bit.) TheData must start with an “@” (40) and end with a line feed (OA).

10. All PFS data is delayed 1 Sec. The Hydroseis GPS data isattached to the end of the PFS data.

11. New software was required for the Opseis Eagle recorder toreceive this special GPS data string.

Air Gun Page 6.6.2



The configuration in Fig. 6B (page 6.6.6) uses a LRS100 Air Guncontroller and a Sercel SN388 for the Recording System.

The following sequence occurs in Air Gun Mode:

1. HydroSeis Nav. System outputs pre-load c1osure when the boatapproaches the Shot point.

2. Pre-load start closure is wired to Start Active and Return onthe Shot Pro Master Encoder in the boat.

3. The Shot Pro Master Encoder sends Master start codes over theradio.

4. The Advance II Slave ESG in the Recorder receives the MasterStart Codes and starts the SN388 Recorder and the Shot ProEncoder.

5. The Advance II Slave ESG then sends Decoder Start Codes.

6. On the boat, the Shot Pro Decoder in Air Gun Mode receives thestart command.

7. Analog data output line of Shot Pro Decoder starts the LRS100Air Gun Controller. (Adjustable from 145mSec to 50mSec beforeAdvance II ESG Time Break.)

8. Start Active is used for CTB and is wired to Vo1ume Time Breakof the LRS100. (260mSec max) (Multiply C.T.B. value in theShotPro/WVSIG programs by 4 for actual C.T.B. value.)

9. Shot Pro Decoder starts receiving GPS data from Hydroseis Nav.System at time break. Receives data up to 1 Sec after timebreak. (l00 bytes Max, 9600 Baud, No Parity, 8 data bits, 1stop bit.) The Data must start with an “@” (40) and end witha line feed (OA).

10. All PFS data is delayed 1 second. The Hydroseis GPS data isattached to the end of the PFS data.

11. The Shot Pro normal Encoder sends the PFS and Hydroseis GPS datato the Sercel XDev.

12. The Advance II ESG sends the PFS data to the Shot Pro computerprogram or WVSIG. (Multiply C.T.B. value in the ShotPro/WVSIGprograms by 4 for actual C.T.B value.)

Air Gun Page 6.6.3



The configuration in Fig. 6C (page 6.6.7) is not connected to the Air GunController. The Navigation System actually fires the Air Gun Controller.

The fo1lowing sequence occurs with this configuration:

1. The Navigation System outputs a pre-fire when the boatapproaches the Shot point.

2. Pre-fire is wired to Start Active and Return on the Shot ProMaster Encoder in the boat.

3. The Shot Pro Master Encoder sends Master Start Codes over theRadio.

4. The Shot Pro Slave Encoder in the Recorder receives the MasterStart Codes and starts the recorder.

5. The Shot Pro Slave Encoder then sends Decoder Start codes.

6. On the boat, the Shot Pro Decoder receives the Start Command.

7. The Shot Pro Decoder uphole input is wired to a hydro-phone forconfirmation that the Air Gun fired.

8. Shot Pro Decoder sends PFS after the shot.

9. Recorder, Shot Pro Slave Encoder sends the PFS to the Shot Procomputer program.

This method does not use any Recording System Interface.

Air Gun Page 6.6.4



The configuration in Fig. 6D (page 6.6.8) is using a Syntron Air GunController and a Sercel Eagle SN388 for the Recording System.

The fo1lowing sequence occurs in the Air Gun Mode:

1. HydroSeis Nav. System outputs pre-load c1osure when the boatapproaches the Shot point.

2. Pre-load closure is wired to the Shot Pro SCK2 (Z) line in theboat.

3. The Shot Pro Decoder is in Air Gun – Mode (AG-) and sends MasterStart codes to the Recording Truck Slave Shot Pro Encoder. Shot Pro Decoder must be in the Fire Mode to send Master Startcodes. The decoder will send Master Start codes every 5seconds if the SCK2 (Z) line is held low (AG- mode).

4. The Shot Pro Slave Encoder receives the Master Start codes andstarts the Recording System. The Slave Encoder sends radiostart codes to the decoder.

5. On the boat, the Shot Pro Decoder in Air Gun – (AG-)Modereceives the radio start command. Shot Pro Decoder must haveMemory Load turned “ON” to receive the start command.

6. Analog data or SCK1 (Y) output line of Shot Pro Decoder startsthe Syntron Air Gun Controller. (Adjustable from 145mSec to50mSec before Shot Pro Encoder Time Break.)

7. The uphole data is wired to "signal" from the Syntron. Showswhen Air Guns fired.

8. Start Active is used for CTB and is wired through an isolator tothe Syntron Time Break. (260 mSec max) (Multiply C.T.B. valuein the ShotPro/WVSIG programs by 4 for actual C.T.B value.)

9. Shot Pro Decoder starts receiving GPS data from Hydroseis attime break. Receives data up to 1 Sec after time break. (100bytes Max, 9600 Baud, No Parity, 8 data bits, 1 stop bit.) TheData must start with an “@” (40) and end with a line feed (OA).

10. All PFS data is delayed 1 Sec. The Hydroseis GPS data isattached to the end of the PFS data.

11. New software was required for the Opseis Eagle recorder to receive thisspecial GPS data string.AG- mode Shot Pro decoder sends Master Start codes when in Fire modeand SCK2 (Z) is held low.AG+ mode Shot Pro decoder sends Master Start codes when in Fire modeand SCK2 (Z) is held high.

GPS Page 6.7.1


31Jan00C:\V6MAN\SHOTPRO\SPCH067.doc

GPS with Shot Pro SystemA separate GPS receiver can be used with the Shot Pro Decoder to recordShot Hole positions. The GPS receiver must have the following features:

• RS232 Serial Interface.• NMEA-0183 Standard GGA and GSA output messages.• GPS receiver must receive corrections and transmit position data at

4800 baud N-8-1.

Shot Pro GPS ReadyWhen the Shot Pro unit is “GPS Ready”, this means it has a GPS receiver-mounting card installed. The GPS receiver-mounting card has some jumpersthat deal with the Shot Pro RTI serial port RX.

1. If wanting to use the RTI feature in Encoder mode or an external GPSreceiver, do the following:

• Jumper 1-2 on JP1• Remove the ribbon cable from the Internal GPS receiver if

present.

2. If wanting to use an external modem to receive differentialcorrections for the internal GPS receiver, jumper 2-3 on JP1.

3. If wanting to use the Shot Pro to receive the differentialcorrections and send them to the internal GPS receiver, jumper 3-4on JP1.

DGPS OperationA built in modem system is provided with the Shot Pro System to receivethe RTCM SC-104 differential corrections. The Shot Pro Decoder willautomatically demodulate the differential correction data from a PeltonRadio Modem or a RCC module at the GPS reference station and send thedata to the GPS receiver.

Single Radio OptionThe single radio option allows GPS correction data and Shot Pro controldata to be transmitted on one radio frequency. The system hookup isshown on page 6.7.5. The Radio Communication Card (RCC) is used at theShot Pro Encoder to transmit the RTCM corrections. The Shot Pro Decoderwill receive this data and serially transmit it to the GPS receiver (ShotPro firmware needs to be 3.008 or newer). The Radio Control signalenables the RCC to transmit RTCM corrections. The Encoder enables theRadio Control line (Z) when it is not busy sending start codes orreceiving PFS information. A high level (TTL) signal enables the RCC totransmit RTCM data. When the Encoder is placed in Radio Mode or the RCCRadio Control switch is OFF, the Radio Control (Z) line is held low, re-transmitted PFS and KOP data can be received at this time.

GPS Page 6.7.2



Position requests and radio KOP uploads/downloads are performed throughthe RCC module (computer). The RCC module detects that the informationis a position request or KOP function and stops sending RTCM data forapproximately 10 seconds to receive the returning radio data.

RTK OperationWith firmware version 3.008, the Shot Pro is capable of receiving the$PTNL,GGK message. The Shot Pro will send the RDOP for the HDOP and theQuality Indicator byte from the GGK message in the GPS PFS message. GPSMAP version 4.42 and newer will store the Quality Indicator in theSEG-P1 file. The RTK GPS receiver will need a separate radio link forthe RTK correction data.

Normal DGPS OperationIn normal GPS operation the position of the Shot Hole is recorded beforethe Shot is fired. The shooter performs the following steps to recordthe position.

• Places GPS Antennae to the desired location.• Select GPS Menu on Shot Pro Decoder.• Select start (STRT) on the GPS Menu to receive GPS position.• Select the Radio frequency, which is used for transmitting the

differential correction information. The Shot Pro will demodulate thissignal and send it to the GPS receiver.

• The GPS position will be displayed on the front panel. The LED’s alsoshow the status of the received position.

Light 1 Light 2

Red Off - No position received from GPS receiver.

Off Red - Positions received from GPS receiver are not valid.

Yellow Yellow- Non-differential (Q.I. <2) 2-D position.

Green Yellow- Non-differential (Q.I. <2) 3-D position.

Yellow Green - Differential (Q.I. ≥2) 2-D position.

Green Green - Differential (Q.I. ≥2) 3-D position.

Q.I. stands for Quality Indicator.

• Press stop on the GPS menu to save the position in memory.• Select the radio frequency used for seismic operation.• Return to Main Menu on Shot Pro.

GPS Page 6.7.3



When the Shot is fired the position information is returned with theUphole data.

The GPSMAP program prior to the Shot can perform a position requestmessage. The Advance II ESG and the Pelton Monitor Module support theposition request message in AdvII mode. The A3 protocol (Vib Pro)position request message has to be transmitted through the Vib ProEncoder or the RCC module. Multiple decoders can be selected forposition request with the A3 protocol. The Memory Load selection must beset to “ON” to allow the position request in the decoder(s).

Shot Pro Decoder Accepts Position RequestMODE Adv. II Vib Pro Shot ProFirmware Level 2.002 3.008 3.008

Navigation OperationThe Shooter can navigate to serially loaded flags or a radio transmittedflag. The Shooter performs the following steps to load flags:

• Select GPS Menu on Shot Pro Decoder.• Connect “Computer” 9- pin to computer running SP1FLAGS.• Send the flag data to the Shot Pro Decoder with SP1FLAGS.• If this is the first time to load flags into the Decoder, press "B"

several times. This helps to initialize the data pointers.• Disconnect the 9 - pin "computer" cable.• Bottom of the display will show how many flags were loaded.• The Shot Pro Decoder is ready for Navigating.

The Shooter performs the following steps to Navigate with the Shot ProDecoder:

• Select GPS Menu on Shot Pro Decoder.• Use the up and down arrow keys to scroll through the loaded navigation

flags. Use "B" to scroll up and "C" to scroll down by 10 flags. Scroll up and down until desired flag is found.

• Press "H" to change between serially loaded flags and a radiotransmitted flag.

• Select start (STRT) on the GPS Menu to receive GPS Positions.• Select the Radio frequency that is used for transmitting the

Differential Correction information. The Shot Pro will demodulate thissignal and send it to the GPS receiver.

• The Navigation data will update after each received GPS position.

GPS Page 6.7.4



Example: (Flag Number) (Bearing to flag) (Distance to Flag) 0000 0001 049 00301M 0000 0002 129 00293M 0000 0003 332 00012M

• Navigate to the flag.• Press stop on the GPS Menu.• Select the radio frequency used for seismic operation.• Return to Main Menu on Shot Pro.

GPS Page 6.8.1


11May99C:\V6MAN\SHOTPRO\SPCH068.doc

PELTON SUB-METER and TRIMBLE DSM GPS ReceiversShot Pro Set-Up Procedure

The following is the parameters for the PELTON SUB-METER and TRIMBLE DSMGPS receivers:

Transmit and Receive Baud Rate is 4800, N, 8, 1.NMEA string $GPGGA output.RTCM 104 input.No connection for PPS on the Shot Pro.

If using an internal receiver, remove the back of the Shot Pro andconnect the computer to the DSM GPS Receiver with a WSPGPSP cable.

If using an external receiver, connect the computer to the Pelton Sub-Meter GPS Receiver with a W9DF-F cable.

Run DSMCHAT.

Press Shift-U to check CHAN-A format.4800 - XMT, 4800 - RCVTransmit - NMEA 0183, Receive - Raw RTCM dataIf this is not the set-up, do the following.

Press Control-U to set CHAN-A format

Enter XMT Baud Rate:<6>: 4800 bps (Press <Enter> to select)

Enter RCV Baud Rate:<6>: 4800 bps (Press <Enter> to select)

Enter bits/char:<8>: 8 (Press <Enter> to select)

Enter parity:<4>: none (Press <Enter> to select)

Enter stop bits:<1>: (Press <Enter> to select)

Enter Ch A Output language:<5>: NMEA 0183 (Press <Enter> to select)

GPS Page 6.8.2


11May99C:\V6MAN\SHOTPRO\SPCH068.doc

Enter CTS control:<1>: ignore (Press <Enter> to select)

Enter Ch A Reception language:<1>: Raw RTCM data (Press <Enter> to select)

Enter RTS control:<3>: Always Negate(RTS is always off) (Press <Enter> to select)

Change settings? (Y for yes) YThe GPS receiver should report back on the screen what you entered. Ifthe message >waiting for reply= appears, check the cable connections andtry again.

Press Shift-D to Set DGPS Mode

Enter DGPS mode:<3>: Auto DGPS/GPS (Press <Enter> to select)

Enter RTCM input version:<0>: Auto version (1 or 2) (Press <Enter> to select)

Enter the base station ID<0>: Press <Enter>

Set DGPS mode to Auto DGPS/GPSPress Y to Accept the Changes.

Press Shift-E for NMEA output cntrl

Enter Subcode:<1>: Set NMEA Message to output, by name list (Press <Enter> to select)

Enter the names seperated by commas:GGA - Press <Enter>

Set list to "GGA"? (Y for yes) Y

RCC Page 6.9.1


01Feb00C:\V6MAN\SHOTPRO\SPCH069.doc

Radio Communications Card (RCC)

IntroductionThe Radio Communications Card (RCC) is used with the Vib Pro and ShotPro systems for the Single Radio function. The Shot Pro system alsouses the RCC to radio transmit KOP and position requests and receiveKOP data and GPS positions. An RCC may also be used independent of theVib Pro or Shot Pro units for monitoring the A3 protocol data over theradio (A3 PSS, A3 Ready Messages…). SPKOP can be used with the RCCmodule independent of the Shot Pro Encoder to download parameters overthe radio from a Shot Pro decoder.

LEDsThere are three LED’s on the RCC module. Each LED represents Status ofthe RCC module.

LED Color Status1 Green Only – Received Radio Data is Good.

Red Only - Received Radio Data is BadGreen and Red – Some of the received Radio Data has corrected

bits.

2 Green - Receiving Radio Sub-carrierRed - RTCM is disabled from sending, because a KOP

or position request has been issued throughthe RCC module.

3 Red - RCC has powerGreen - Transmitting Radio Data

RCC Page 6.9.2



Shot Pro Single Radio OptionThe single radio option allows GPS correction data and Shot Pro controldata to be transmitted on one radio frequency. The system hookup isshown on page 6.9.5. The RCC is used at the Shot Pro Encoder totransmit the RTCM corrections. The Shot Pro Decoder will receive thisdata and serially transmit it to the GPS receiver (Shot Pro firmwaremust be 3.008 or newer). The Radio Control signal enables the RCC totransmit RTCM corrections. The Encoder enables the Radio Control line(Z) when it is not busy sending start codes or receiving PFSinformation. A high level (TTL) signal enables the RCC to transmitRTCM data. When the Encoder is placed in Radio Mode or the RCC RadioControl switch is OFF, the Radio Control (Z) line is held low, re-transmitted PFS and KOP data can be received at this time.

Position requests and radio KOP uploads/downloads are performed throughthe computer port of the RCC module. The RCC module detects that theinformation is a position request or KOP function and stops sendingRTCM data for approximately 10 seconds to receive the returning radiodata.

RCC in Monitor ModeThe RCC may be used to monitor A3 protocol radio messages. The RCC canmonitor the PSS messages from the Vib Pro decoders and PFS messagesfrom the Shot Pro decoders (Vib Pro and Shot Pro modes). The RCC canbe used to request and receive GPS positions from Vib Pro and Shot Pro(firmware Ver. 3.008 or newer) decoders. KOP functions can beperformed between the RCC and the Shot Pro decoder. The system hookupis on page 6.9.6.

RCC Page 6.9.3



RADIO COMMUNICATION CARD TECHNICAL SPECIFICATIONS:

INTERFACE: RTCM RS232 interface with socket 9 – pin data port.2 wire interface supports 9600 BAUD data rate.

COMPUTER RS232 interface with socket 9- pin data port.3-wire interface supports 19200 BAUD datarate.

SERIAL DATA FORMAT: 8 Data Bits, No Parity, 1 Stop Bit.MODULATION SIGNAL: 0 – 10 Volts peak to peak. Adjusted by

potentiometer RP8.DIPSWITCH: CONTACT 8: OFF – MICROPHONE NORMAL POLARITY

ON – MICROPHONE NEGATIVE POLARITYCONTACT 7: OFF – SPEAKER NORMAL POLARITY ON – SPEAKER NEGATIVE POLARITY.

POWER SUPPLY: 9 to 36 Volts D.C.

CONNECTOR PIN ASSIGNMENT

1 – RXD2 COM2 Receive Line (Input) RTCM IN (from GPS ReferenceStation)

2 – TX2 COM2 Transmit Line (Output)3 – RETURN Common4 – RXD0 n/c COM0 Receive Line (Input)5 – TXD0 n/c COM0 Transmit Line (Output)6 – IN1-A n/c Opto-Coupled Input 1 Active (Input)7 – IN1-R n/c Opto-Coupled Input 1 Return (Input)8 – RADIO RET Radio Return9 – MIC A Microphone Active (Output to Radio)10 – ENMIC A ESG Microphone Active (Input) from Vib Pro or Shot Pro11 – RADIO CONTROL Radio Control Line (Input)12 – (-)9-36V Ground13 - +9-36V 9 to 36 Volts D.C.14 – RXD1 COM1 Receive Line (Input) from COMPUTER15 – TXD1 COM1 Transmit Line (Output) to COMPUTER16 – RETURN Common17 – IN2-A n/c Opto-Coupled Input 2 Active (Input)18 – IN2-R n/c Opto-Coupled Input 2 Return (Input)19 – OUT1 A n/c Opto-Coupled Output 1 Active (Output)20 – OUT1 R n/c Opto-Coupled Output 1 Return (Output)21 – OUT2 A n/c Opto-Coupled Output 2 Active (Output)22 – OUT2 R n/c Opto-Coupled Output 2 Return (Output)23 – SPKR R Speaker Return (Input)24 – PTT M PTT Active (Output)25 – SPKR A Speaker Active (Input)n/c – no connect

Shot Pro Encoder Entry Page 7.1.1



Shot Pro Encoder Entries

Main Menu (Encoder mode)

A. FIRE - Select to Fire shot.

B. DATA ENTRY - Select to enter control parameters.

C. CHG MODE - Select to change to Decoder Mode.

G. RADIO MODE - Select to enable Radio Reception.

E. OFF - Select to turn Shot Pro unit off. Push button 3 times.

D. Return - Pressing D will always return to Main Menu when in a Sub-menu.

F. SHOT HIST - Select to review or retransmit data from previous shots.

Contrast Adjustment is only operational in Main Menu. "88","99" - Use upand down arrows in main menu to adjust contrast of display. Thisadjustment is required when using the Shot Pro at temperature extremes.

A. Fire Menu - Press A to enter Fire Menu. Displays the followinginformation. Lights will flash green then red every 5 sec.

ENCODERMODE

SHOT PRO # = ??CREW ID # = ??START CODE = ??REMOTE FIRE = 0(1 = ENABLED)

8989 SELECTS ENTRYAUTO ARM = ON

The Shot Pro # entry must match box ID # entry and crew ID # must matchthe Decoder crew ID # entry in the Shot Pro Decoder to be fired. Entering #15 allows all Shot Pro Decoders to fire. Start code must matchstart code at Decoder to fire the shot. Remote Fire must equal "1" forthe Recording System to start Shot Pro Unit.




Press A to Enable the local fire screen. Lights will flash rapidly red.The following information will be displayed.

TO MANUAL FIREPRESS F

SHOT PRO # = ??START CODE = 2REMOTE FIRE = 1AUTO ARM = ON

Pressing F will Manually send start codes to Decoders. After the Firecommand is pressed the two lights will stay green until donetransmitting.




B. DATA ENTRY MENU - Lights will flash green every 5 sec. See Passwordentry in decoder section if Password is enabled.

MENU A

1. START DELAY =1.0002. 0 TIME ADJ = 0.703. RADIO REF DEL=0.804. MASTER/SLAVE=OFF5. MEMORY LOAD= ON6. PASSWORD

1. Start Delay - A entry between 1.000 to 9.999 seconds. Thisentry is used to set the time between Start of Fire sequence andtime break. An entry of 1.000 is the normal entry.

2. O Time Adj - Allowable entry is 0 to 2.55 mSec. This entry isused to correct for the one way radio delay from the Encoder tothe Decoder. This number should be adjusted to align the firepulse from the Decoder with clock time break from the Encoder.

3. Radio Ref Delay - The Radio Ref Delay in the Shot Pro Encoderis used to align the timing marks on the Time Break/Timing Markoutput line with the following signals on the Analog data line:(See Fig 2 page 7.1.7)

# Decoded Clock Time Break (1.0 sec)# Confirmation Time Break (1.5 sec)# Uphole Signal (2.0 sec.)

After setting up the 0 Time Adj entry. Adjust the Radio RefDelay to align the Timing Mark at 1 second with the Decoded ClockTime Break Signal.




4. MASTER/SLAVE0=OFF1=MASTER2=SLAVE

OFF – Normal Encoder Mode1 - Master Encoder Mode2 – Slave Encoder Mode

In Master Mode, the Encoder sends master codes that contain CrewID # and Box ID # to the Slave Encoder. The Master Crew ID #entry must match the Slave Crew ID # entry before the slave willtransmit the Master Start Code Message to the Decoder. Entering#15 for Crew ID # in the Slave allows all Master Crew ID #entries and Box ID # entries to be transmitted to the Decoder.

5. MEMORY LOAD0 = OFF1 = ON

OFF – Radio reception by the Shot Pro is only allowed right afterthe shot in the Encoder and when the box is waiting for radiofire in the Decoder. Radio reception in the Encoder is alsoallowed when in the Radio Mode Menu and in the GPS AcquisitionMode in the Decoder.

ON – Radio reception is allowed at all times by both the Decoderand Encoder.

6. PASSWORD = Password Mode can be enabled by entering anypassword other than 0000. When the Password Mode is enabled,then the Password must be entered to change the operationalparameters. This password entry is used in both the Encoder andDecoder modes of operation. To disable the Password Mode enter0000. To change the password:

# First enter old password, this step is bypassed if old passwordis 0000.

# Enter new 4 digit password then press the enter key.# The access code to change the password must be entered. Theaccess code is "SHOT". To enter "SHOT" use the cursor ²², ÷÷arrows to select digit and the 88, 99 to select the letter. When"SHOT" appears on the menu press the "Ent" key to accept thisentry. Note: If the Password is forgotten or corrupted callPelton Company and ask for JG or VT to correct the problem.

For “More” press “H” to go to Menu B in the Encoder. Press D to returnto main menu.




MENU B

1. RADIO POLARITY = NML2. RADIO MIC POL = NML3. REC SYS TYPE = OTHER4. SHOT COUNT = 030

NORMALIZE = ON5. UH DISPLAY TIME = 036. MODE = AII

1. RADIO POLARITY0 = REVERSE1 = NORMAL

This entry allows changing of the Radio Speaker polaritywithout having to physically swap the speaker wires to theShot Pro.

Note: The wiring and the entry must be the same or else thetiming may not be the same from box to box. Default = 1.

2. RADIO MIC POL0 = Reverse1 = Normal

The radio microphone polarity can be changed without havingto physically swap microphone active and return wiring tothe Shot Pro.

Note: The wiring and this entry must be the same betweenboxes or the timing between Shot Pros will not be the same.

3. REC SYS TYPE0 = None1 = Other2 = Sercel

This entry allows the selection of the protocol used betweenthe Shot Pro Encoder and the recording system.

0 – is for no serial Recording Truck Interface.1 – is for I/O and all other recording systems.2 - is for the Sercel SN388

Note: The “OTHER” selection will send the shot message twiceto the Shot Pro computer program.




4. SHOT COUNT = ??NORMALIZE = ON

SHOT COUNT – Displays current shot count number. Enterdifferent number to reset count or erase previous shot. Enter“0” to restart log.

NORMALIZE = ON – When set to “ON”, the Y-axis of the display ofuphole signal is set to match the maximum of the signal. Whenset to “OFF”, the display is set to full scale of A/Dconverter. Normally set to “ON”.

5.UH DISPLAY TIME = 03

This entry selects the amount of time the uphole signal isdisplayed in the Encoder after a shot. The range is 00 to99 seconds.

6.MODE = 00 = ADVII1 = VIB PRO2 = SHOT PRO

ADVII - The Encoder sends Advance II start codes andreceives PFS in Advance II format. Use this mode when usingand Advance II ESG.VIB PRO – Use this mode when using a Vib Pro Encoder. Donot select this in Encoder mode.SHOT PRO - The Encoder sends Advance II start codes andreceives PFS in Vib Pro format. Use this mode when a ShotPro is being used as the Encoder.

Press H for next menu. Press D to return to main menu.




G. RADIO MODE - Select this mode to receive the retransmitted datafrom the decoder.

Press and hold the "D" key to return to the main menu. It may benecessary to turn off radio to return to main menu.

Encode Mode Radio Status Word - The bottom line of the display inthe Main, Fire, and Radio menus shows six digits in a format similar to:

XX YYYY

The desired displays are:

0F 0000 when no GPS data was sent from the Decoder,1F 0000 when GPS data was sent.

The sequence of incoming data is sub-carrier, followed by serial sub-carrier, then data which may include status information, uphole geophonesignal, and GPS position.

XX may be decoded as:

00 - No data received01 - Received sub-carrier only03 - Received serial sub-carrier07 - Received status data0F - Received status and uphole data1F - Received status, uphole, and GPS data

XX Codes other than 0F or 1F indicates a failure to receive meaningfuldata and are used only for troubleshooting.

YYYY shows a cumulative count of the bits that were received but wereclose to being or possibly were interpreted incorrectly. 0000 indicatesno bits in this category and is the best possible indication. Theprocedures described in Radio Setup section of the Installation chaptermay be used to minimize the value of YYYY.

Decoder Page 8.1.1


22Apr98C:\V6MAN\SHOTPRO\SPCH08.DOC

SHOT PRO DECODER OPERATION

1) Press and hold "ARM" button to turn unit on.

2) Acquire GPS position with GPS menu.

3) Enter Flag number in the Data Entry menu.

4) Connect and test geophone and cap connection. Use the test menuselection to test geophone and cap resistance. Before testing capresistance clear the area and follow proper safety procedures.

5) When ready to fire cap, first clear the area and follow all safetyprocedures. Keep hands and fingers clear of high voltageconnections.

# Press the ARM (A button) key from the main menu.

# The following data is displayed; Geophone Test results, CapTest results, GPS position and the current Geophone Noise.

# Press and hold the charge button until high voltage cap ischarged.

# While pressing the charge button also press the ARM button. The unit will now send the ready tone to the Recording Systemif Ready Tone is Enabled.

# Press and hold both the charge and ARM switch until the cap hasbeen fired.

# After the cap has been fired, the uphole signal is displayed onthe main menu, and the uphole pick time is shown.

Decoder Entry Page 9.1.1



Shot Pro Decoder Entries

POWER - To turn the Shot Pro unit "on", press and hold the arm buttonfor approximately 3 seconds.

Main Menu (Decoder Mode) Lights blink green every 5 sec. The main menuwill display current status. The display shows battery voltage, firmwarerevision level and operation mode, (either decoder or encoder mode). Thecursor up and down keys adjust the display for optimum readability in themain menu.

At the left and right of the screen are menu choices.

A. Arm - Select to Arm and fire shot.

B. Data Entry - Select to enter operation parameters.

C. Chg Mode - Select to change from Encoder Mode or Decoder Mode.

D. Return - Select in sub-menus to return to Main menu.

E. Off - Select to turn Shot Pro unit off. Push button 3 times.

F. Shot Hist - Select to review or retransmit data from previousshots.

G. GPS - Select to acquire GPS position from optional GPS receiver.

H. Test - Select to test resistance of uphole and cap lines.

Contrast Adjustment is only operational in Main Menu.

"88","99" - Use up and down arrows in main menu to adjust contrast ofdisplay. This adjustment is required when using the Shot Pro attemperature extremes.

Decode Mode Radio Status Word - The bottom line of the display inthe Decoder Main menu shows four digits in a format similar to:

XX YY

The display will show 9F 80 if the radio link is optimum.




The sequence of incoming data is sub-carrier followed by a series ofeight start codes, all in one transmission. After the micro processorrecognizes the sub-carrier, it correlates each start code to check forvalidity. If the sub-carrier and all eight start codes are received andfound to be valid, and some other requirements are satisfied, the decoderwill detonate the charge.

The data in XX will normally be 9F if everything works as it should.YY indicates the correlation value for the last start code in the startblast. A value of 80 shows perfect correlation. The system will acceptstart codes with a correlation value of 60 to 80. The proceduresdescribed in Radio Setup section of the Installation chapter may be usedto achieve a YY value as close to 80 as possible. This can help resolveinconsistent radio starts.

A. Arm Menu - Press the "A" button to enter Arm Menu. When in the ArmMenu the two Lights will blink Green then Red every 5 sec.Note: If cap is charged, then the charge button released, the lightswill blink red twice.

The Arm menu shows the current geophone noise level, the data from theCap line test, Uphole phone test, GPS position, and the entered flag #.The screen will look similar to the following:

Warning!!ARMING CAP

Press CHARGE tocharge CAP

No GPS DATA CAP = 2 PHONE = 330 FLAG # = 000004578UPHOLE NOISE = 0.03V

The noise level of the uphole geophone can be monitored in this menu. The noise level displayed is the uphole phone's peak voltage. Thisdisplay is updated every one second. The Exploration Co. or Clientshould determine the maximum allowable uphole phone voltage.




CHARGE MENU - Press D to return to Main Menu or Press charge to chargecap. The lights will both flash red at first. Light 1 will stay on whenthe cap is fully charged and light 2 will flash red until ARM is pushed.The charge menu looks similar to this:

WARNING!!CAP is CHARGING

H.V. CAP=400.0V

UPHOLE NOISE = 0.03V

When light 1 is on, the cap is fully charged and should be close to valueset in the H.V. set entry. While continuing to press the charge buttonPress the Arm button to fire the shot. If the ready tone is enabled, itwill automatically be sent to the recording truck at this time. Thefollowing menu will appear when the ARM and Charge buttons are pressed.

DANGER!!SYSTEM IS CHARGED!!

H.V.CAP=400.0V

DANGER!!

WAITING FOR RADIOFIRE COMMAND!!

UPHOLE NOISE = 0.03V

When Fire command is received from the encoder and Shot Pro has fired thecap, light one will change to green when transmitting data back to theencoder and light two will change to green when firing process iscomplete. Press 8989 to review the shot history of previous shots. Press D to return to the Main Menu.




B: Data Entry Menu - LED lights will flash green every 5 sec. Menu A

1. FLAG # = 000000002. BOX ID# = 00 CREW ID # = 003. START CODE = 2 READY TONE = MSG4. PFS DATA = ON BAUD RATE = HIGH5. MEMORY LOAD = OFF6. AUTO OFF = 34

Press the number next to the data entry to change the value. Press D toreturn to Main menu or H to view other parameters. Cursor up and downkeys select menu items, cursor left and right select letter entries ormove cursor.

1. FLAG # = Lets the user enter a flag number up to eight digitslong. Use the keypad to enter numerical entries or use the updown arrows to enter alphanumeric characters.

2. BOX ID# = Lets the user enter in the ID # of the shooting box,Box ID# 0-15 are valid. Box ID# must match Shot Pro # selectedfrom Encoder for shot to fire. If the Encoder selects Shot Pro#15 all units will fire if crew ID # is satisfied. If in VibPro mode, Box ID # 1-15 are valid.

CREW ID # = Is an entry to identify a crew. This entry allowsmultiple crews to work in the same area without the worry ofone crew firing another crews boxes. 0-15 is the range ofentries. Crew ID # must match Crew ID # selected from theEncoder for shot to fire. If the Decoder selects crew ID #15all units fire if Box ID # entry is satisfied.

ENCODER DECODER CREW ID BOX ID CREW ID BOX IDMATCH DECODE MATCH DECODE MATCH ENCODE MATCH ENCODE 0-15 15 15 0-15

Encoder and Decoder Mode Fire Table

Master Slave/Repeater Data Sent DecoderCREW ID BOX ID CREW ID BOX ID CREW ID BOX ID CREW ID BOX IDMATCHSLAVE

MATCHDECODE

MATCHMASTER

0-15 SAME ASMASTER

SAME ASMASTER

MATCHMASTER

MATCHMASTER

0-15 15 15 0-15 SAME ASMASTER

SAME ASMASTER

15 0-15

Master and Slave/Repeater Mode Fire Table




3. START CODE =Start codes 0,1 and 2 are valid. This entry mustmatch the start code entered in the encoder for the shot tofire.

READY TONE = OFF, Tone, MSG

OFF – Nothing radio transmitted when Decoder is charged.

Tone – A 322Hz Ready Tone is radio transmitted when the Decoderis charged.

MSG – The default or last GPS position taken is radiotransmitted when the Decoder is charged. The Box ID # will bedisplayed when the Encoder is in the Fire Menu. The GPSposition will be sent to the computer. Default – ReadyMessage.

4. PFS TYPE = Selects if PFS data is sent after the Decoder fires.

BAUD RATE = Selects if 3K or 2K baud is used when data isretransmitted to Encoder.

5. MEMORY LOAD0 = OFF1 = ON

OFF – Radio reception by the Decoder is only allowed when theBox is waiting for radio fire and when in the GPS Menu.

ON – Radio reception is allowed at all times by the Decoder.

6. AUTO OFF = Let’s the user enter automatic shut down time, enter0-34 minutes. Must be in main menu to start auto off countdown. Enter 0 to disable Auto off.

Press H to view data entry Menu B.Press D to return to the main menu.




Menu B1. SHOT COUNT = 999 NORMALIZE = ON2. BLANK TIME = 000.53. PICK METHOD = 04. UPHOLE GAIN = 0db

AUTO GAIN = OFF5. H.V. SET = 4006. PASSWORD

Press the number next to the data entry to change the value.Press D to return to Main menu or H to view other parameters.

1. SHOT COUNT =Displays current shot count number. Enter different number to reset count or erase previous shot. Enter"0" to restart log from start.

NORMALIZE = ON - When set to "ON", the Y-axis of the display ofthe uphole signal is set to match the maximum of the signal. When set to "OFF", the display is set to full scale of A/Dconverter. Normally set to "ON".

2. BLANK TIME =Enter time to blank (zero) uphole phone after shotis fired.

3. PICK METHOD = Various pick methods for determining uphole timecan be selected. The first 4 selections (0-3) automaticallyfind the beginning of the lobe. The other 4 selections (4-7)are identical to the first four (0-3) except the automaticbeginning of the lobe is not used.

In all pick methods a threshold voltage is determined. Whenthis threshold Voltage is reached 3 consecutive times, then thepick time is determined. Most of the methods are determinedfrom the background noise 250msec before the shot.

0 - Threshold = Average noise x 2 Automatic beginning of lobe.

1 - Threshold = Peak noise x 2 Automatic beginning of lobe.

2 - Threshold = Computed from acquired data. Automatic beginning of lobe.




3 - Threshold = Average noise x 3 Automatic beginning of lobe.

4 - Threshold = Average noise x 2

5 - Threshold = Peak noise x 2

6 - Threshold = Computed from acquired data.

7 - Threshold = Average noise x 3

4. UPHOLE GAIN = Select uphole pre-amp gain. Normally 0db "0" or20db "1" gain is used.

0 = Gain of 0db1 = Gain of 20db2 = Gain of 40db3 = Gain of 60db4 = Automatic Gain

AUTO GAIN = Set to "on" to allow Shot Pro to automatically setpre-amp gain. Normally set to "OFF".

5. H.V. SET = Enter high voltage for cap terminals. A entry of200 volts to 400 volts is allowed. 400 volts provides maximumoutput of unit. 200 volts allows longer battery life.

6. PASSWORD = Password Mode can be enabled by entering any password other than 0000. When the Password Mode is enabled,then the Password must be entered to change the operationalparameters. This password entry is used in both the Encoderand Decoder modes of operation. To disable the Password Modeenter 0000. To change the password:

# First enter old password, this step is bypassed if oldpassword is 0000.

# Enter new 4 digit password then press the enter key.

# The access code to change the password must be entered. The access code is "SHOT". To enter "SHOT" use thecursor ²², ÷÷ arrows to select digit and the 88, 99 to selectthe letter. When "SHOT" appears on the menu press the"Ent" key to accept this entry. Note: If the Password isforgotten or corrupted call Pelton Company and ask for JGor VT to correct the problem.

Press H to view Menu C. Press D to return to Main menu.




MENU C

1. RADIO SPKR POL = NML2. RADIO MIC POL = NML3. DECODER DELAY = 0.004. REMOTE FIRE = 05. DEFAULT PARAMS6. MODE = AII7. AIRGUN MODE = OFF8. PRE-START = 50

1. RADIO SPKR POL = 10 = REVERSE1 = NORMAL

The radio speaker polarity can be changed without having to physically swapthe Speaker Active and Speaker Return wires to the Shot Pro.Note: The wiring and this entry must be the same between boxes orthe timing between Shot Pros will not be the same.

2. RADIO MIC POL = 10 = REVERSE1 = NORMAL

The radio microphone polarity can be changed without having to physicallyswap Microphone Active and Return wiring to the Shot Pro.NOTE: The wiring and this entry must be the same between boxes or the timingbetween Shot Pros will not be the same.

3. DECODER DELAY – Allows the firing of the Decoder to be delayed bythe amount of this entry. Range is 0.00 mSec to 9.99 mSec. 0.00mSec is the normal entry for Decoder delay.

4. REMOTE FIRE = 00 = OFF1 = ON

When set to 1, the Decoder can be fired by the Remote Fire input. The normalprocedure is followed to get the Decoder ready to fire. The shooter isrequired to hold the “ARM” and “CHARGE” switches when the Remote Fire signalis issued. Default 0.

5. DEFAULT PARAMETERS – Allows default keyboard parameters to be loaded into theShot Pro. Both Encoder and Decoder keyboard parameters will be set to thedefault keyboard parameters. Setting in the default parameters is a two stepprocess. Press “G” is the first step. Pressing any other key will exit andthe default parameters will not be loaded. After the “G” is pressed the nextstep is to press “1”. If 1 is pressed, the default parameters are loaded in. If any other key is pressed, the program exits this menu and the defaultparameters are not loaded in.




6. MODE = 00 = ADVII1 = VIB PRO2 = SHOT PRO

ADV II - the Decoder operates with Advance II start codes and sends OriginalAdvance II PFS data back.VIB PRO - The Decoder can receive Vib Pro start codes and transmit PFS inthe Vib Pro format. The Decoder will also send the Vib Pro ready message(if selected) when ready to fire.SHOT PRO - The Decoder will receive Advance II Start Codes and transmit PFSin the Vib Pro Format. The Decoder will also send the Vib Pro ready message(if selected) when ready to fire.

7. AIRGUN MODE = 00 = OFF1 = AG2 = AG-3 = AG+

When set to 1, the Decoder is in a special mode for Airguns.The Decoder has the following features:

• The Decoder can be fired without the "Arm" and "Charge" buttons beingpressed.

• Confirmed Time Break is measured with a switch closure connected to StartActive. Confirmed Time Break data sent to the SHOTPRO.EXE Program mustbe multiplied by 4 for the correct data. The CTB data sent to the SercelRecording System is correct.

• After the Fire Pulse is issued, the Shot Pro is ready to receive serialdata from an external system (9600, N-8-1). Can receive up to 100 bytes. This data is radio transmitted with PFS and sent to the RecordingSystem.

• An extra second has been added to the turn around time.• When set to 2, the Decoder has the same features as 1, and can send

Master Start codes when the SCK2 (Z) line is low. If SCK2 (Z) line isheld low, the Decoder will send Master Start codes every 5 seconds. TheDecoder must be in the Fire Menu.

• When set to 3, the Decoder has the same features as 1, and can sendMaster Start Codes when the SCK2 (Z) line is high (+5V). If SCK2 (Z)line is held high, the Decoder will send Master Start codes every 5seconds. The Decoder must be in the Fire Menu.

• Operates in Adv II and Shot Pro Mode.

8. PRE-START = 50Adjustable pulse on Analog Data line. Pulse adjusts from starting at 50 to145 mSec before Time Break. Pulse is used to start Air Gun.

Pressing H will return to Menu A. Press D to return to Main menu.




C. CHANGE MODE - Lets you change from Encoder Mode to the Decoder Mode.When in the Decoder Mode, change to Encoder Mode by pressing E, thenconfirm by pressing 1. If in the Encoder Mode, change to Decoder Mode bypressing F, then press 1 to confirm. At any point, pressing any otherkey will cancel and return you to the Main Menu. Lights will flash greenevery 5 sec.

D. RETURN - Pressing D will always return to Main Menu when in a Sub-menu.

E. OFF - Pressing E three times turns the Shot Pro unit off.

F. SHOT HISTORY - Lights flash green every 5 seconds.

1. ChangeDisplayShots - Displays previous shot history. When in graph mode using "88" or "99" will allow you to scroll throughthe displays of previous shots.

2. RE-TRANSMIT MENU - Retransmit any shot(s). Allows previousshots to be retransmitted. Press G to retransmit last shot. To retransmit other shots enter shot number to retransmit,press enter, then press “G”.

The Decoder also sends the data directly to the computer by TX1on the Shot Pro. TX1 is pin G on the PF connector and P forthe digital return. (See the Shot Pro Encode Cable, WSP-E).




G. GPS - Lights flash green every 5 seconds. Press "G" to startreceiving GPS positions. To send differential corrections to GPSreceiver, select radio frequency being used to transmit differentialcorrections. The Shot Pro unit will automatically demodulate thedifferential data from a Pelton Radio Modem at the GPS reference stationand send the data to the GPS receiver.

Light 1 Light 2

Red Off - No position received from GPS receiver.

Off Red - Positions received from GPS receiver are notvalid.

Yellow Yellow - Non-differential 2-D position.

Green Yellow - Non-differential 3-D position.

Yellow Green - Differential 2-D position.

Green Green - Differential 3-D position.

The GPS position data is evaluated and stored accordingly into 8different buffers.

Best: DGPS 3-D DOP < 2DGPS 3-D DOP > 2DGPS 2-D DOP < 2DGPS 2-D DOP > 2

GPS 3-D DOP < 2GPS 3-D DOP > 2GPS 2-D DOP < 2

Worst: GPS 2-D DOP > 2

Select position algorithm by pressing 0-2 and pressing "Enter" to accept.

0 = Last best position received.1 = The GPS data is evaluated. The center position is saved

for PFS.2 = The GPS data is evaluated and the average position is saved

for PFS.




NavigationUse the up and down arrow keys to scroll through the loaded navigationflags. Use "B" to scroll up and "C" to scroll down by 10 flags.Press "H" to change between serially loaded flags and a radio transmittedflag.

Example: (Flag Number) (Bearing to flag) (Distance to Flag) 0000 0001 049 00301M 0000 0002 129 00293M 0000 0003 332 00012M

H. Test - (Lights flash back and forth 1-2 green.) The following screenwill be displayed.

OHM METER

ARM = FIRING LINE

CHARGE = GEOPHONE

C = CALIBRATE

G = LIMITS

# Enter the acceptable error limits by pressing "G".

# Enter the Ohm meter calibration by pressing "C".

# Test the uphole geophone resistance by pressing the charge switch.

# Test the cap/firing line resistance by pressing the Arm switch.




LIMITS - When "G" is entered, the following Limit Menu will appear. Light 2 will flash green. Press the 8989 and number keys to change theacceptable limits.

OHM METERACCEPTABLE RANGE

FIRING LINEUPPER LIMIT=0005LOWER LIMIT=0001

GEOPHONEUPPER LIMIT=0400LOWER LIMIT=0300

8989 SELECT ENTRYTO TEST, PRESS H

Pressing H returns to the Test Menu.

FIRING LINE TEST - Press the ARM button from the Test Menu to test thefiring line. Make sure the area is clear before testing Cap resistance.Although minimum current will flow for the cap test, the same safetyprecautions as an actual cap firing should be taken. After the ARM ispressed the lights will light green if the resistance is within limits.Otherwise the red lights will illuminate. Readings only taken while Armis pressed.

FIRING LINE

RESISTANCE

PRESS ARM

01.300Ω

OHM METER RANGE = 1




Geophone/Uphole Test - After the charge button is pressed the followingscreen will appear. Both lights will be green if the resistance is withinlimits, otherwise both lights will be red. Readings continue to be takenuntil another button is pressed.

GEOPHONE

RESISTANCE

0297.0 Ω

OHM METER RANGE = 3

Enter D to return to main menu. Enter H to return previous menu.

CALIBRATE - Press the "C" key from the Test Menu to calibrate the OhmMeter circuit. After pressing "C" the following menu will appear.

OHM METER

CALIBRATE

PRESS C TO CALIBRATE

OFFSET = 2.00Ω

Calibration Method 1 - Must provide external short on firing line.

# Short the High Voltage Firing Lines together.

# Hold the Arm button down.

# While holding the arm button down press "C" button tocalibrate.

# Continue to hold the arm button down until the displayupdates.

# Offset is typically less then 5Ω for proper operation.

Calibration Method 2 (Less accurate then Method 1) - Uses the arm buttonin the normal position to provide the short.

# Press "C" to calibrate. Do not press the Arm button.

# Offset is typically less then 5Ω for proper operation.

Installation Page 10.1.1



SHOT PRO ENCODER INSTALLATION

The Shot Pro Encode Cable Connector JF provides connections for power,radio, and recording system interface.

Each wire in the Shot Pro Encode Cable, wired to a mating PF connector,is labeled according to the JF pin it is connected to.

1. Power Input - The unit is powered by the battery voltage (10-15VDC), or by a power supply capable of producing 10 to 15-volts DC at10 watts.

Pins T,S (red 20 gauge, 2 wires) are connected to the positive (+)side of the power source through a 7amp fast blow fuse.

Pins U,V (black 20 gauge, 2 wires) are connected to the negative (-)side of the power source through a 7amp fast blow fuse.

2. Radio Interface - The Shot Pro Unit must be connected to asuitable radio transceiver so the Start Code and data can betransmitted to the Decoder and uphole data can be received from theDecoder.

Some requirements of the radio transceiver are:

A. Response time (from activation of PTT at transmitter toquieting and stabilization of speaker audio at receiver) - lessthan 125 milliseconds.

B. Audio Band width (3 dB) - at least 300 Hz to 3000 Hz.

C. Signal to Noise Ratio (Voltage measured at speaker, ratiobetween 100 percent modulation and 0 percent modulation) - 20dB.

D. Required speaker voltage at 100 percent modulation - at least1 volt peak-to-peak.

E. Transmitter audio input for 100 percent modulation - 2 voltspeak-to-peak.

F. Mic. disconnect switch when PTT button released.

G. Negative PTT (the radio must transmit when the PTT line isconnected to common.




The MS3106E14S-5S radio connector is wired to Shot Pro connector PF asfollows:

Connector Wire type Radio Radio ConnectionPF pin Connector

b Single conduc- A Transmitter inputtor shielded (Mic High)

a Red wire of B Speaker Activeshieldedtwisted pair

c 22 gauge Black C Radio Return

d 22 gauge Yellow D Push-to-talk

h Black wire of E Speaker Returnshieldedtwisted pair

If the radio transceiver requires less than 2 volts p-p for 100 percentmodulation, an attenuation circuit must be installed in the RadioInterconnect Box in series with the transmitter input.

Pelton Company has determined interface circuits for many popular radiosand will supply this information on request.

See Radio Installation and Testing Section later in this chapter.

Wire Line Communications - Communications between an Advance II EncodeSweep Generator or Shot Pro Encoder and Shot Pro Decoder(s) may beaccomplished by wire rather than by radio. To do this, connect pins Aand B of the five pin radio connector together and connect them to onewire in the cable to be used for communication. Connect pins C and E ofthe five pin radio connector together and connect them to another wire inthe communication cable. Wire line communications should be satisfactoryover several miles of cable. There are no provisions for voicecommunications through the Shot Pros, but using the paralleling intercomunits on the same wire pair should not cause a problem.




3. Shot Pro Remote Start CommandThe Shot Pro Encoder accepts a start command from the RecordingSystem. It responds by sending start codes to the Decoder andissuing a time break signal.

The Shot Pro expects the Recording System to produce a voltagepulse starting command:

Pin W (red wire of shielded twisted pair) is connected to thepositive (+) side of the voltage pulse and:

Pin X (black wire of shielded twisted pair) is connected to thenegative (-) or return side of the voltage pulse.

Voltage sources of 4 to 15 volts, supplying 15 milliamps, aresuitable.

4. Clock Time Break:Time Break (T.B. Act and Rtn) is generated by the Shot Pro Encoderdigital card at the instant the shot is fired.

A switch closing pulse of about 20 milliseconds duration isgenerated by the Shot Pro Encoder. Additional timing marks to alignwith the signals on the analog data line are provided (Figure 2 page7.1.7).

Pin j (red wire of shielded twisted pair) is connected to thepositive (+) side of the Time Break input.

Pin f (black wire of shielded twisted pair) is connected to thenegative (-) or return side of the Time Break input.

The maximum voltage and current rating for this signal are 30V and150mA.

5. Uphole SignalTiming verification marks along with the uphole signal are availableon the Analog Data line.(see page 5.1.2)

If the auxiliary channel accepts a high-level (10v p-p) input:

A. Connect Pin g (red wire of shielded twisted pair) to the activeinput of the auxiliary channel.

B. Connect Pin R (black wire of shielded twisted pair) to thereturn input of the auxiliary channel.

If the auxiliary channel requires a lower level input, an externalresistor divider network must be used.




6. Computer Cable - A 9 pin D connector provides signal connectionsfor the optional computer. The computer need not be connected tothe Shot Pro, except when using the Shot Pro or GPSMAP ComputerPrograms.

Pin 2, receive of computer, is wired to JF-G.

Pin 3, transmit of computer, is wired to JF-H.

Pin 5, common of computer, is wired to JF-N.

7. Recorder Start Command - The Shot Pro Encoder sends a startcommand to the Recording System approximately 52ms after the startcodes have been transmitted. The pulse is a minimum of 150ms induration. The pulse will need amplification to energize an opto-coupled circuit.

Pin K (Red wire, +5 volts) is connected to the positive (+)side of the external start.

Pin Y (Orange wire, Rec Start) is connected through a 10K Ohmresistor to the base of the amplifying transistor (2n3904). The emitter is connected to ground and the collector connectedto the return side of the External start.

8. Reference Marks - Timing verification marks are available on theRef Marks line.

Connect Pin Z (Brown, Ref Marks) to the active input of theauxiliary channel.

Connect Pin R (Black, Acom) to the return input of theauxiliary channel.

PC9S

COMPUTER

2 3 5 PC9S

5

3

2

RS232COM PORT

NISO T. B.

T.B. ISO T. B. ACT

ISO T. B. GOES LOW AT TIME ZERO

ISO T. B. RET

TO

AU

XC

HA

NN

EL

OPTIONALATTENUATOR

TO AUX CHANNEL

R

g

N

L

M

NISO T. B. J

T. B.f

j

Z

G

H

12V BATTERY +

BATTERY -

T,S

U,V

PP32JC32SR

32 PIN MS CONNECTOR

P

BATTERY

+12V

SWITCH CLOSEDSTARTS ENCODER START RET

10K

+5VD

200

RECORDING SYSTEM

START ACT

EXT. START

RADIO

JF

b

c

d

aSPKR A B

D

A

C

PTT A

RADIO RET

MIC A

JM6E5SPM1A5P

h

5 PIN CONNECTOR

SPKR RE

W

REC START

K

Y

X START

10

SHOT PRO DIGITAL CARD

3

5

4

6

MIC A

RADIO RET

PTT A

SPKR A

SPKR R

7JFP

16

15

REC ST. ACT.(SER CLK 1)

+5VD

23

TX125

26

SHOT PRO UNIT

TITLE:

RX1

BATTERY -3433

2728 12V BATTERY +

DCOM2

QUAN:

MAT'L:

DRAWN BY

SCALE:

REF MARKS (SER CLK 2)14

ANALOG DATA8

32

31

12

DCOM

ACOM

RX2

TX2

19

30

29

1

20 msec

To

APVD BY

DATE

PELTON COMPANY,INC.1500 N. Waverly

PONCA CITY, OK 74601

KJG

NUMBER

WSPRSI

SHEET OF

REV11/26/96

REVISION2

SHOT PRO TO RECORDING SYSTEM INTERFACING

12/08/98




Shot Pro Decoder Installation

Power and Radio use same connection as used for the Shot Pro Encoder.

Uphole GeophoneConnect positive output of uphole geophone to JF-C, connect negativeoutput of uphole geophone to JF-D.

GPS ReceiverThe optional GPS receiver can be connected to the Shot Pro Decoder.

The RS232 $GPGGA NEMA position message output of the GPS receiver shouldbe connected to JF-M on the Shot Pro Unit.

The RS232 RTCM differential correction message input of the GPS receivershould be connected to JF-L. The differential correction message can bedecoded by the Shot Pro Unit, only if a Pelton Modem is used formodulation.

Airgun

Confirmed Time BreakConfirmed Time Break (CTB) is calculated from the time Fire pulse isissued until a voltage pulse is received. This is only in Air Gun Mode.

Pin W (red wire of shielded twisted pair) is connected to thepositive (+) side of the voltage pulse.

Pin X (black wire of shielded twisted pair) is connected to thenegative (-) or return side of the voltage pulse. Voltage sourcesof 4 to 15 volts, supplying 15 milliamps, are suitable.

PulseConnect positive Output of pulse to JF-C, connect negative output ofpulse to JF-D.




Controller StartSome Airgun Controllers require a pre-start pulse to fire the Airguns. Apulse is started 50mSec before the Fire command is issued on the AnalogData Line.

If the Controller Start Channel accepts a high level (10V p-p) input:

A. Connect Pin g (red wire of shielded twisted pair) to the activeinput of the Start Channel.

B. Connect Pin R (black wire of shield twisted pair) to the returninput of the Start Channel.

If the Controller Start Channel requires a lower level input, an externalresistor divider network must be used.

Navigational SystemThe Navigational System can send a serial message (maximum 110 bytes) tothe Shot Pro Decoder after the Fire command is issued. This data will besent back to the Shot Pro Encoder with Post Fire Service (PFS).

The RS232 Navigational System data output should be connected to JF-M onthe Shot Pro Unit. The RS232 common connected to JF-N.

Radio Installation and Testing

Radio Set-upConnect the Shot Pro's radio output to the user's radio. The Shot Pro'sradio circuit is designed for speaker audio input. However thediscriminator audio output of the radio can be used instead. The speakerconnection normally gives greater range of reception than discriminatoroutput. Entering a start delay of 1.200 seconds instead of 1.000 secondsin the Encoder increases the key up time of the radio by 200 mSec. Thisadded key up time may improve the reception of start codes.




Speaker PolarityThe radio modulation technique used in the Shot Pro system usually worksbetter with one polarity than the other. Reverse the Speaker Active(SPKR-A) and Speaker Return (SPKR-R) lines between the radio and Shot Proto check both polarities. The Shot Pro's start command signal istransmitted to the Decoder at 1952 baud. The Post Fire Service (PFS)data is transmitted to the Encoder 3123 baud after detonations, but maybe sent at either baud rate during retransmissions. The 3123 baudtransmission may require a different polarity than the 1952 baudtransmission. Make sure all boxes have the speaker wired the same fortiming purposes. The entry, Radio Polarity, can be used to change RadioSpeaker Polarity.

The Shot Pro Decoder displays a 4 digit Hex number at the bottom of themain menu. This is the Decode Radio Status Word. The last two digitsrelate to the reception of the start codes. An indication of 80 in thelast two digits indicates 100% reception of the start code data. Areading of 60 in the last two digits indicates 75% reception of the startcode data.

The Shot Pro must receive at least 75% of the start data to detonate thecharge. To determine the best speaker polarity at the Decoder:

# Set up the Encoder and Decoder to fire a test shot. (The readytone from the Decoder can be used to make an Advance II EncodeSweep Generator send start blasts when the Decoder is armed andready.)

# Receive a start blast.

# Return to the Main menu of the Decoder and record the last two Hexdigits of the Decoder Radio Status Word. 80 indicates perfectreception.

# Receive start blasts with different volume settings on the radioand both speaker polarities to determine which speaker polarityworks best over the widest range of volume settings.

The Shot Pro Encoder displays a six digit Hex number in the bottom lineof the display in the Main, Fire, and Radio menus. This is the EncodeRadio Status Word. The last four digits show a cumulative count of thebits that were received in the last PFS transmission that were close tobeing or possibly were interpreted incorrectly. 0000 indicates no bitsin this category and is the best possible indication.




To determine the best speaker polarity if a Shot Pro is acting as theEncoder:

# Set up the Encoder and a Decoder to fire a shot.

# Take a test shot and receive PFS data.

# Record the last four Hex digits of the Encoder Radio Status Word.0000 is the most desirable reading. Higher numbers are lessdesirable.

# It is necessary to return to the Main menu after each reading isrecorded. subsequent readings erroneous unless this is done.

# Receive PFS data with different volume settings on the radio andboth speaker polarities to determine which speaker polarity worksbest over the widest range of volume settings.

# Setting the Decoder to retransmit at low baud rate and having itretransmit PFS data is sometimes helpful in troubleshooting PFSdata reception problems.

Refer to the Encoder Entries and Decoder Entries chapters of this manualfor more detailed descriptions of the Radio Status Words.

Disassembly and RepairMost Shot Pro repairs may be accomplished by removing the back cover, andthen the Analog board. If necessary the Shot Pro may be removed from theenclosure by removing the front cover. Caution must be taken afteropening the unit because the Analog Board may still have high voltage onthe high voltage capacitors, CE8 and CE9. Special care must be exercisedif the unit is worked on with power applied while it is removed from theenclosure. Potentially lethal electrical charges may be developed in theunit. Access the boards and front panel for repair by removing the sixscrews and stand-offs as necessary.

Schematics and other documents providing information to aid in repairingthe Shot Pro are included in the Documentation section of this manual.The display, display card and front panel card are not manufactured byPelton Company, are not considered field repairable, and no documentationis provided on those circuits.




AssemblyWhen reassembling the Shot Pro, apply some sort of thick paint, loctiteor other chemical (such as finger nail polish) to the heads of screws,stand-offs, and nuts to keep them from coming loose while the unit is inuse. Improper reassembly allowing screws and nuts to loosen has been amajor cause of failures of Shot Pros.

A bag of desiccant is installed in the Shot Pro case. It should bereplaced or reactivated according to the instructions printed on the bagperiodically. Installation and proper care of the desiccant areimportant protection against damage from moisture.Be sure the gasket and sealing surfaces are clean and use new sealingwashers when assembling the unit to ensure a good seal. It is normallynecessary to use some sort of sealing compound between the Front Paneland the gasket. Some pipe joint compounds work well and are easy toremove should re-application be needed at a later date. Some siliconesealant compounds also work. Excessive torquing of the screws can causethe panel to bend and lose the seal. Tighten each screw until the gasketbetween the panel and the gasket of the sealing washer deform slightly.Sealing compound is normally required to seal the 32 pin connector andFiring Line terminals, and under the heads of the screws for the handlesif they are ever removed. Suggested torque values are:

Handle screws: 22 in lbs Display Module: 6 in lbsFiring Line Posts: 18 in lbs Led Card: 6 in lbsCharge and Arm Switch Nuts: 40 in lbs Front Panel Card:14 in lbs32 Pin Connector Screws: 14 in lbs Standoffs: 18 in lbsFront and Back Plate Screws: 16-24 in lbs

Shock and Vibration IsolationThe Shot Pro has been designed and constructed to be very resistant toshock and vibration. In some situations, the reliability of the Shot Prounit may be enhanced significantly if it is mounted using shock andvibration isolation techniques and materials. The Back Pack Option isnot intended to provide shock and vibration isolation.

32 PIN MS CONNECTOR

+12V

5

2

3

BATTERY

GPS

DB9P

MIC A

PTT ARADIOA

D

B

ESPKR R

SPKR A

PM1A5P5 PIN CONNECTOR

OPTIONAL

JM6E5S

DIFFERENTIAL CORRECTION

POSITION INFORMATION

COM

OPTIONAL

12V BATTERY +

BATTERY -

UPHOLE PHONE

RADIO RET C

TO FIRING LINE(CAP)

FRONT PANELFIRING POSTS


c

SHOT PRO ANALOG CARD

1,2

3,4 CAP RET

UPHOLE ACT

UPHOLE RET

JSC

CAP ACT

4

1C

D

7

JFP

JF-UHJF

3433

2827

PP32JC32SR

DCOM1N

BATTERY -U,V

S,T 12V BATTERY +

6

4

5

3

29

30

M

L

SPKR R

SPKR A

PTT A

RADIO RET

MIC Ab

d

a

h

QUAN:

NUMBER

DATE

APVD BY

SCALE: REV

CARD REV

TITLE:

11/26/96

SHOT PRO UNIT

PELTON COMPANY,INC.

DRAWN BY

SHOT PRO DECODE CABLING

WSPDC

01/06/97

MAT'L:

KJG SHEET OF

PONCA CITY, OK 746011500 N. Waverly

5

2

DB9P

COM

OPTIONAL

NAVIGATIONAL SYSTEM

DATA TO SHOT PRO

RADIO

OPTIONALATTENUATOR

ACOM

GU

N C

ON

TR

OL

LE

R

ST

AR

T

ANALOG DATA

JM6E5S

R

MIC A

PTT A

SPKR R

SPKR A

RADIO RET

A

D

B

E

PM1A5P5 PIN CONNECTOR

OPTIONAL

C c

h

a

d

b

g

U,V

S,T

BATTERY -

12V BATTERY +

BATTERY

+12V

32 PIN MS CONNECTOR

N

JC32SRPP32

M9600 N-8-1

START RET X

CTB

START ACT W

C

DPULSE

JF

TO FIRING LINE(CAP)

FRONT PANEL

FIRING POSTS

RECORDING SYSTEM

UPHOLE ACTIVE

UPHOLE RETURN4

UPHOLE RET

UPHOLE ACT

1

10

23

CTB

JF-UH

SHOT PRO ANALOG CARD


JSC

CAP ACT

CAP RET3,4

1,2

JFP

8 ANALOG DATA

3433

2827

DCOM1

BATTERY -

12V BATTERY +

29

SHOT PRO UNIT

SPKR R

SPKR A

PTT A

RADIO RET

MIC A3

5

4

6

7

19 ACOM

MAT'L:

SHEET OFKJG

QUAN:

NUMBER

DATE

APVD BY

SCALE: REV

CARD REV

TITLE:

11/26/96

DRAWN BY

SHOT PRO DECODE / AIRGUN WIRING

PONCA CITY, OK 746011500 N. Waverly

PELTON COMPANY,INC.

08/17/98

WSPD/A

Software Page 11.1.1


23 Apr 98C:\V6MAN\SHOTPRO\SPCH11.DOC

Shot Pro Computer Program for Windows 3.1 and 95

<!> The Shot Pro computer program requires the following files andlibraries:

vbrun300.dllgswdll.dllcmdialog.vbxmscomm.vbxthreed.vbxgraph.vbxgsw.exe

These files are normally located in the \windows\system sub-directory, orthe same subdirectory with the Shot Pro program.

The Shot Pro program allows remote monitoring of dynamite crew operationsand saving of received data to a file. The data for the program isreceived from the Pelton Advance II Encode Sweep Generator com. port orthe Shot Pro Encoder com. port. Data on the program screen is brokeninto three logical groups:

Main group (top of the screen) - contains Unit ID number, Flag Number,Uphole Pick Time and Comments fields.

Secondary group (middle of the screen) - all other information about thelast shot, program status and record counter (if data is saved).

Last group of data is the Uphole Geophone data shown as a line graph. The red mark on the plot shows the Decoder unit Uphole Pick Time.Operator can change scale for the plot by calling XY-Scale window (clickwith mouse on the plot).




Program start.To start the program double click on the Shot Pro Icon. The first timethe program is started, the window (Fig. 1) to select computer Com portis displayed. The selected Com port will automatically be used next time the program is run. This selection is saved in the file SHOTPRO.INIin the Windows root directory.

Fig. 1

After the Com port is selected, the program shows the database Commentfield window (Fig. 2). In this window the user can type any comments forthe job and it will be saved in the database file along with each record.Also the file name must be selected for saving data records or appendfile option can be selected to continue the job file created before. Ifthe OK button is selected (Accepts the Comments Only) then the programDOES NOT SAVE received records but only monitors them. Same thing aboutthe Cancel button, but program ignores the comments field.

Fig. 2




Operations.When starting the program, the Loading Shot Pro menu appears with thequestion to continue using the previous file. If the No button isselected then the program brings up the database Comment field window toassign a new file name or append to another file. If the file save isselected then the horizontal scroll bar appears in the middle of thescreen. During operations the program always shows the last record. Bymoving the scroll bar, the user can scroll through the recorded data andplace comments for each record by clicking twice on the Comment field. When new data is received the program automatically shows the last datato the operator and the record counter is incremented. The destinationfile can be changed between shots by clicking on the File menu andselecting the Data Base File item. This brings up the window shown inFig. 2 and is described above.

Menu Items.

File menu:Data base File... - selects another file to store received data.Export File...... - selects file name to export Flag Number and User

Pick Time to ASCII file. This option isavailable only for the files saved with theShot Pro version 2.13 or later.

Exit - exits from the program.

Com Port menu - displays selected Com port number, and allows selectionof another Com port.

Freeze item - allows program to release selected Com port without exitingfrom the program. Use this only when the Com port is needed for anotherWindows or DOS application.

AutoScale item - restores default program XY settings for the plot.

Graph menu:XY - Scale - user selected XY scale for the plotThick Lines - changes line thickness for the plotAbout... item: program version number




Main parameters group:

Unit ID: arrives with serial data. The Shot Pro box ID number, rangingfrom 0 - 15, can only be assigned by the Shot Pro Decoder unit keyboard.

Flag Number: entered in the field by the Shot Pro Decoder unit operator.Any eight ASCII characters can be changed by double clicking with themouse on the window. To apply changes click on the AInsert@ button justbelow this field.

Geophone Uphole Pick Time: measured by the Shot Pro Decoder. Time isdisplayed in milliseconds by default this field has received value fromthe Decoder.

Secondary group:*

Confirmed Time Break: generated by the Shot Pro Decoder unit. Time isdisplayed in milliseconds.

Capacitor voltage before and after shot: in volts, range 0 - 440 V.

File Number and Energy Point ID number: this data coming from theRecording Truck Interface(RTI) module in ESG (if available).

Com port status and Record number: condition of selected Com port andTotal number of saved records.

Viewed Record: number of displayed record, changes by a scroll bar.

Fire Line and Geophone resistance : separated by A/@, in Ohms. This fieldchanges the color to red when value exceeds error limit set in theDecoder.

Geophone Gain: gain value set on the Decoder, also shows Geophone inputvoltage range on the Decoder. After that is shown the Geophone UpholePick Time, (Uphole) in milliseconds, is received from the Decoder and cannot be changed.

Computer Time Stamp: self explaining, system time when data has arrived.




Edit Functions:The Shot Pro program allows to edit the following fields after data isreceived:

Flag Number - double click on the Flag Number field, this enables editcapabilities and shows the Insert button to replace the old flag numberwith the new one. There is no undo function for this action. If in themiddle of editing the Flag Number field and new shot data arrives, thenthe Shot Pro program restores the original flag number, hides edit fieldand scroll screen to the new record.

Comments - double click on this field to enable editing of this field.The each shot record can have comments up to 32 characters long. If inthe middle of editing the Comment field and new shot data arrives, thenthe Shot Pro program ignores the unfinished entry, hides edit field andscroll screen to the new record.

User Uphole Pick Time - The user can change Geophone Uphole Pick Time byclicking on the Geophone Uphole signal graph with the RIGHT mouse button.The X position of the cursor is taken for the New Uphole Time. Thisoption is available only for the records saved with the Shot Pro programversions 2.13 or higher. Shot Pro's before version 2.13 did not have afield for the User Uphole Pick Time.

Test Shot - just above the Geophone Uphole signal graph is a small checkbox named as ATest Shot@. Mouse click on the check box toggles it'svalue. The records marked as the Test Shot will be ignored when a ExportASCII File is generated.

Export File format: This file is generated on the user command (see MenuItems above). The file is a ASCII text file with the TXT extension andhas a following format:

Header: Pelton Co.,Inc.Exported from: C:\SHOTPRO\111296.SPTotal Records: 125------------------Flag Number Pick

Records: 00000105, 50.5000000106, 48.5000000107, 49.5000000108, 50.50

End of file: End

SP1Flags Page 11.2.1


08 Mar 99C:\V6MAN\SHOTPRO\SPCH11_2.doc

SP1FLAGS Computer Program

SP1FLAGS requires the following files and libraries:

VB5STKIT.DLLMSVBVM50.DLLSTDOLE2.TLBOLEAUT32.DLLOLEPRO32.DLLASYCFILT.DLLCOMCAT.DLLMSCOMM32.OCXCOMDLG32.OCX

These files are normally located in the \windows\system sub-directory, orthe same subdirectory with the SP1FLAGS program.

The SP1FLAGS program allows loading Flag data into the Shot Pro withfirmware 3.005 or newer. The program reads SEG-P1 files for flag data. SP1FLAGS coverts the data and serially transmits the data to the ShotPro through the computer port.

Fig 1.

Program start.To start the program, click on "START", "PROGRAMS", double click on theSP1FLAGS Icon.

SP1Flags Page 11.2.2


08 Mar 99C:\V6MAN\SHOTPRO\SPCH11_2.doc

Operations:

After starting program, the Com port will have to be set-up.

Com Port Menu - Displays selected Com port number and allows selection ofanother Com port.

Load File Button - Load a SEG-P1 file.

Before sending the flag data, select whether to Append or Overwrite theflag data in the Shot Pro.

SP1FLAGS gives the operator the choice of sending the first 500 flags tothe Shot Pro or individual selection. To select the flags individually,move the pointer to the desired flag and click. To select multipleconsecutive flags, move the pointer to the top desired flag, click andhold the shift button down, point to the last flag click. Individualflags can be selected by pressing the Control key down and click on thedesired flag.

Only the selected flags are serially transmitted to the Shot Pro. If noflags are selected, the first 500 flags are sent.

Fig 2.

Send Button - Sends the flag data to the Shot Pro Decoder. The Shot ProDecoder has to be in the GPS Menu to accept this data.

Exit Program Button - Press this button to exit the program.

Options Page 12.1.1



Back Pack Option

The Back Pack Option uses the field-proven U.S. military A.L.I.C.E. LC-2pack frame. It provides a lightweight, rugged, and comfortable way tocarry the Shot Pro and related equipment. Replacement packs and strapsare readily available from Pelton Company or through mail-order companiesand military surplus outlets. Some of these outlets offer optionalstraps and pads for added security, and comfort.

The straps of the LC-2 pack are designed to ensure the load iscomfortable while being secure enough for strenuous activities. After aninitial adjustment so the pack fits the individual, taking the pack offand on should be easy and quick. The lumbar strap is adjustable toprovide comfort for a wide range of body shapes and loads. It should beloose enough for comfort but tight enough that the wearer's back does notcontact the metal parts of the lower pack. The waist strap has a quickrelease buckle with adjustments that do not have to be disturbed whenthat strap is buckled or released. Optimum comfort, especially for longperiods of packing, can be achieved by supporting the load of the packprimarily on the hips, via the lumbar and waist straps, rather than onthe shoulders. The shoulder straps have hardware that allows easyadjustment of pad locations and adjustment and release of tension.

Initial Pack Adjustment

1. Support the pack on a table, shelf, or have someone hold it.

2. Assume a position so that the lumbar strap contacts the back at acomfortable point, usually near the top of the pelvic bone.

3. Adjust the waist strap so that it is snug enough to carry the weightof the pack on the hips.

4. Adjust the upper buckles of the shoulder straps so the shoulder strappads are positioned with their tops near the tops of the shoulders.

Donning The Pack

1. Buckle the waist strap

2. Tighten the shoulder straps, using the adjustments just below thepads enough to stabilize the load but not so much that the shoulderstraps are supporting the load.

Options Page 12.1.2



Removing The Pack

1. Release the waist strap buckle

2. Lengthen the shoulder straps by pulling the strings on the buckles atthe bottom of the pads away from the body. This causes the lowershoulder strap adjustments to be released to their maximum extensionfor easy dismounting of the pack.

BackPack Cover Option

A cover is available for an additional cost that will protect the ShotPro, radio, battery, and wiring. This cover is made of Herculite, whichis very durable at a wide range of temperatures and is waterproof. Thenormal color is bright yellow. Other colors are available on specialrequest. The cover has flaps and windows for operating the Shot Pro andradio, servicing the battery(s), and for viewing the Shot Pro and radio. Optional cargo pockets may be added on request.

Radio Considerations

Power reflected from the antenna back into the radio when it istransmitting can damage the radio and usually greatly reduces thecommunication range. Some items that affect reflected powersignificantly are: antenna tuning, integrity and selection of hardware,antenna design, counterpoise (ground plane), proximity of the antenna toother objects.

Back packs do not provide suitable ground planes for radio antennae. Thebest vertical antenna design for operation without a ground plane is thebase loaded, half wave. It gives significantly greater reflected powerstability and greatly improved radiational efficiency over any otherantenna design that is practical for back packing. Therefore, radiocommunications can be improved substantially by using a 1/2 wave verticalantenna with almost any radio being used on a pack. When a spring isinstalled between the base load and the radiating rod, the antenna isflexible enough to be suitable for use even in dense brush and trees.

The orientation of any antenna is critical for optimum communicationrange. Most antennae used for local communications on seismic crews aremounted vertically, giving vertical polarization. If the back pack isused laying down, with the antenna in the horizontal position, the powerradiated from the antenna is polarized horizontally. This by itselfresults in a significant reduction in communication range (about 20 dB).

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A second disadvantage of operating the antenna horizontally is that thereflected power typically will be much higher, primarily due to theproximity of the antenna to the ground or other objects. This reflectedpower can damage the radio. It will cause many radios' protectionsystems to reduce the transmit power significantly. Another disadvantageof this position is the low elevation of the antenna above the ground.Merely raising the antenna from the horizontal to the vertical positionprovides an increase in antenna elevation that is significant forincreasing communication range. Optimum communication range and radioperformance can be ensured by positioning the antenna mount so theantenna is nearly vertical when shots are being fired. This may resultin the antenna being vertical when the pack is vertical, leaned back atabout 45 degrees, or laying flat with the Shot Pro facing up.

If the Pelton Antenna mount is used with half-wave vertical antenna, itis critical that the BA (the large all-thread part of the mount that theantenna base load screws on to) be adjusted properly. The BA must extendabove the nut on top of the mount 5/16" +0.00" - 1/16" (7.9mm +0mm -1.6mm). Improper adjustment may cause failure of the base load.

Safety Considerations Specific to Back-Pack Operation

The radio frequency energy emitted from a transmitting radio antenna mayinjure people. The potential for injury is affected by the frequency andpower level of the RF energy. A general rule for radios operating in theVHF High Band (around 150 MHz) at about 40 Watts transmitter power isthat personnel should be at least 24" (60 cm) from an antenna when it istransmitting. Care should be taken to keep the antenna as far aspossible from the body, especially the head, when transmitting. There isno potential for RF energy when the radio is not transmitting or near ahigh power radio transmitter.

Many people have been killed due to contact to a high voltage linethrough an antenna. Always take extreme care that the antenna does notcome in contact with overhead wires or other structures that may havehigh voltage electrical energy.

Be sure to remove the antenna or take the pack off any time lightening isa threat. There is a threat of lightening when thunderstorms are presentand when strong winds and clouds are present, even if no lightening hasbeen observed. A "tingly" sensation and hair standing on end, as whenstatic electricity is high, are warning signs of a possible imminentlightening strike. If these occur, take the pack off immediately andassume a crouching or squatting position with minimum contact with theground, in a low place if possible.

Options Page 12.1.4



Sitting on a vehicle with rubber tires or wearing rubber shoes does notoffer protection from lightening strikes. Sitting inside a fullyenclosed vehicle does provide significant protection from injury due tolightening.

Shock and Vibration Isolation

The Shot Pro has been designed and constructed to be very resistant toshock and vibration. In some situations, the reliability of the Shot Prounit may be enhanced significantly if it is mounted using shock andvibration isolation techniques and materials. The Back Pack Option isnot intended to provide shock and vibration isolation.

Back Pack Shock Mount Option

An optional shock mounting system is available for our customers who needthe flexibility of mounting the Shot Pro on a vehicle, such as a "Quad"or snow mobile and going back pack portable with minimum change overtime. The Back Pack Shock Mount Option consists of a mounting plate,which may be secured to the vehicle, shock mounts similar to Aeroflexmounts, and a tray that the Shot Pro with Back Pack Option fits neatlyinto. Bungee straps or some other securing device should be used tosecure the Shot Pro with Back Pack Option in the tray.

Mobile Mount / Shipping Case Option

The Mobile Mount / Shipping Case Option (MMSCO) provides a rugged casewith foam inserts and securing hardware. It normally provides adequateprotection and shock and vibration isolation for mounting a Shot Pro andassociated equipment on a vehicle and for shipping. Some shippingcompanies ensure only the contents of containers and not the containersthemselves. It would probably be advisable to put this case in an outercontainer for shipping so the case will be covered by their insurance.

A removable antenna mount is provided on the outside of the case forradio communications while the MMSCO is being used on a small vehicle orportably. There is some storage room inside the case for cables, etc. Connectors are provided on the outside of the case for uphole geophone,firing line, and battery charging or external power lines. The standardfoam inserts accommodate the Shot Pro, two 7 amp/hour gell cellbatteries, and a Motorola GM300 or SM120 radio. A foam insert can besupplied to be cut for other radios.

If the Pelton Antenna mount is used with half-wave vertical antenna, itis critical that the BA (the large all-thread part of the mount that theantenna base load screws on to) be adjusted properly. The BA must extendabove the nut on top of the mount 5/16" +0.00" - 1/16" (7.9mm +0mm -1.6mm). Improper adjustment may cause failure of the base load.

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23 Apr 98C:\V6MAN\SHOTPRO\SPCH13.doc

RTI – Recording Truck Interface

The Shot Pro Encoder provides an RS232 link with the recording system.This link allows the recording system to command which shooter (DecoderID#) to fire, also the Recording System receives the uphole and GPSinformation from the Decoder.

Two serial protocols are currently available. One is an ASCII serialprotocol at 9600 baud for the Sercel SN388 recording system. The secondis a Hexadecimal serial protocol at 19.2K baud for all other recordingsystems. The REC SYS TYPE entry in the Encoder Menu B selects theinterface type.

Options Page 13.1.2



Recording System-Pelton Messaging ProtocolShot Pro Encoder

Rev 2

This document reflects both the Sercel protocol and the standardprotocol. The selected messages will be shown by STD or Sercel.

STANDARD (STD)

This describes the message protocol for communication between a RecordingSystem and the Pelton Shot Pro Encoder. All of the data fields useHexadecimal format unless otherwise stated.

In the descriptions that follow, message contents are described using oneof the following methods:

# Field Name with size in bytes in parentheses appended—e.g., Sz(2).# Literal Character-e.g., ‘I’.# The first two bytes ASCII “SP” or “RS”.# All other data fields are hexadecimal format unless otherwise

stated.# ASCII Pattern enclosed in quotes-e.g., "DDMM.mmmm".

All of these methods are used in the GPS Information Message:

SP Sz(2) Id(2) Version(2) "hhmmss" , "DDMM.mmmm", Open(4) *ChkVal(1)

Several comments are in order:

# The two bytes ‘SP’ appears as the first two bytes in the message.# The Id field occupies the 4Th and 5Th bytes in the message whatever

its actual value.# The commas and the asterisk literals are shown for clarity only they

are not part of the message.# The time field ‘hhmmss’ is an ASCII representation of the time, not

an integer encoding.# Spaces between fields are shown in this text for clarity only and do

not represent part of the message.

All messaging will be via an RS232 port using settings of 19200 Baud,No Parity, 8 Data Bits, and 1 Stop Bit.

Options Page 13.1.3



Recording System to Pelton System Messages

Each of the messages has four fields with a common description. Theyare:

Sz This field contains the number of bytes to follow. The byte countstarts with the Id field and includes the ChkVal byte at the end ofthe message.

Id This field contains the identifying number for the message. Itsvalue is specified in the line above the field description.

Version This field contains the revision level of the particularmessage. It need not be the same for every message since individualmessages may be revised independently of other messages. Theinitial release of the new messaging system will have each messageversion set to 1.

ChkVal This field will be calculated by forming the exclusive or-XOR-of all bytes starting with the Id field and including all bytes upto the ChkVal field. For the Revision Request Message, therefore,the ChkVal will contain the XOR value of the Id, Version, andRevision fields.

Revision Request Message - Id = 0000: (STD Only)

RS Sz(2) Id(2) Version(2) Revision(2) ChkVal(1)

This message requests the Pelton System to return the revision level ofthe messaging system in use. The first byte of the revision will containmajor revision level, the second byte will contain minor revisions orpatches to the major revision. It will be sent during startup toinitialize the Recording System messaging system to employ a revisionlevel compatible with that of the Pelton System in use. The revisionnumber field identifies the revision level of the Recording Systemmessaging system. The first two digits reflect the major revision level,while the last two digits reflect minor changes or “patches” to thefirmware. This text reflects major revision level 02 and the firstrelease will have a revision number of 0201. The response message(Pelton to Recording System message Id number 6) will be sent immediatelyupon receipt of this message.

Options Page 13.1.4



Example Message ID=0000 Version=1 Rev=0201:

525300070000000102010252 - ASCII for “R”53 - ASCII for “S”0007 - Sz - size is 7 bytes0000 - ID - ID is 00000001 - Ver - Version is 10201 - Rev - Major revision is 2 release number is 102 - Chksum - XOR chksum of ID, Ver, & Rev =02

Shot Message - Id = 0001: (STD Only)

RS Sz(2) Id(2) Version(2) ShotCoordType(1) ShotCoordSize(1)ShotCoordInfo(?) ShotId(4) EpId(4) File(4) ChkVal(1)

This message will be sent as soon after the start of each shot aspossible. The Pelton Computer Programs use the information contained inthis message.

The EpId field will contain the number (starting from 1 to 99 Dec) of theenergy point in the sequence of energy points that make up the shot.

The File field will contain the tape file number (0-9999 Dec) used forrecording the data of the specified shot or EP. A file number of 0indicates that no data will be recorded. The file number of the finalstack will be used for interim Eps.

The ShotCoordType field contains an integer identifying the type ofcoordinate system used to describe the shot point location. OnlyShotCoordType = 1 is supported.

The ShotcoordSize field contains the number of bytes used to express theshot point location in the designated coordinate system.

The ShotCoordInfo field contains the actual shot point location. Fortype 1 ShotCoordType the ShotCoordInfo is Line(4) position in hundredthsof a line and Station(4).

Options Page 13.1.5



Example Message ID=0001 Version=1:

5253001B00010001010800000000000001180000001300000021000000123052 - ASCII for “R”53 - ASCII for “S”001B - Sz - size is 27 bytes0001 - ID - ID is 00010001 - Ver - Version is 101- ShotCoordType is 108- ShotCoordSize is 8 bytes00000000- Line position = 0.000000118- Station position = 28.000000013- Shot ID = 1900000021- EP ID = 3300000012- File # = 1830 - Chksum - XOR chksum of ID, Ver, ShotCoordType Size, Line &Station, Shot ID, EP ID, and File # = 30hex

Sequence Code Message - Id = 0002: (STD Only)

RS Sz(2) Id(2) Version(2) SequenceNumber(1) Serial Number(1) ChkVal(1)

This message will contain information for the next shot. This messagewill be sent at least 200 mSec before the start command to the Encoder issent. It can also be sent after the previous shot has begun. With theShot Pro Encoder if the message is sent during the previous shot, it mustbe sent after Time Break and before 1 second after Time Break, or it maybe sent 3 seconds after Time Break. It will not contain a shot or EPnumber since these will not have been determined at the time oftransmission.

The response message (Pelton to Recording System message number 0) shouldbe sent immediately upon receipt of this message. Delaying the responsemessage could delay the beginning of the next shot. With the Shot Pro ifthe message is sent during the previous shot, then the response messagewill be generated after Shot Pro message 9 is sent to the recorder.

The SequenceNumber field will contain the Sequence Number to be used forthe next shot. The Sequence number is used in the Shot Pro Encoder toselect the decoder’s ID number. Valid sequence numbers are 0-99. Onlythe Shot Pro Decoder whose ID matches the requested number in theselected Sequence will fire. With the Advance II Encoder the sequencenumber allows different sweeps to be selected or different VibratorGroups to be selected.

Options Page 13.1.6



The Serial Number field will be an identifier attached by the recordingsystem and should be returned in the Pelton System Verification messageto serve as a cross check on the verification.


525300070002000163197952 - ASCII for “R”53 - ASCII for “S”0007 - Sz - size is 7 bytes0002 - ID - ID is 00020001 - Ver - Version is 163 - Sequence Number =9919 - Serial Number = 2579 - Chksum - XOR chksum of ID, Ver, Seq # & serial Number =79

Options Page 13.1.7



Pelton Encoder to Recording System Messages

The Sz, Id, Version, and ChkVal fields are as described for the RecordingSystem to Pelton messages.

The messages from a Shot Pro Encoder will use an ASCII “SP” as the firstcharacters.

SHOT PRO ENCODER Messages

Verification Message - Id = 0000: (STD Only)

SP Sz(2) Id(2) Version(2) Sequence Number ID (1) Serial Number(1)ChkVal(1)

This message verifies the receipt of the Sequence Code Message ID=0002.This message should be returned immediately upon receipt of the SequenceCode Message. The SerialNumber field identifies the particular sequencenumber message being verified. At most one sequence number message willbe pending, so the SerialNumber field provides a check that the twosystems are still in synch.

Example Message ID=0000 Version=1

535000070000000163197B53 - ASCII for “S”50 - ASCII for “P”0007 - Sz - size is 7 bytes0000 - ID - ID is 00000001 - Ver - Version is 163 - Sequence # 9919 - Serial number is 257B - Chksum - XOR chksum of ID, Ver, Seq # & Serial # =7B hex

GPS Information Message - Id = 0001: (Version 0002)

SP Sz(2) Id(2) Version(2) Shot Pro#(1) ShotId(4) EpId(4) $GPGGA ,"hhmmss" , "DDMM.mmmm" , "N" , "DDDMM.mmmm" , "W" , "q" , "ss" , "H" ,"±AAAA.d" , "M" , , , * AvgMode(1) ChkVal(1)

The Version Number for this message is 0002.

This message returns the GPS information for a specified shot and EP. Note that the commas and the asterisk are literals included in themessage. The ShotId and EpId will match the ShotId and EpId field of aprevious Recording System shot message.

The hhmmss field is an ASCII representation of the collection time.

Options Page 13.1.8



The DDMM.mmmm and N fields are ASCII representations of the latitude ofthe vibrator Shot Pro#. Note that the N field may be either ‘N’ or ‘S’-the name N does not imply either. Similarly, the DDDMM.mmmm (note theadditional ‘D’) and W fields provide an ASCII representation of thelongitude of vibrator Vib#. The W field may, of course, contain either‘E’ or ‘W’.

The q field has three valid values: ‘0’, ‘1’, and ‘2’ representinginvalid, GPS, and DGPS respectively.

The ss field contains an ASCII representation of the number of satellitesused in obtaining the position information.

The H field contains an ASCII digit showing the HDOP (Horizontal Dilutionof Precision) in fractional units.

The ±AAAA.d field contains an ASCII representation of the elevation ofthe vibrator. Note that the sign indicator is always present (and almostalways ‘+’).

The M field contains either ‘M’ or ‘F’ indicating whether the altitude isgiven in Meters or Feet.

The AvgMode field identifies the selected Averaging Mode for the VibratorGPS Interface Card. The data is in hexadecimal format.

00 - Last: the Latest Position01 - Best: the best Position02 - Avg.: the average Position

Options Page 13.1.9




5350004A000100020000000000000000002447504747412C3136313833392C333634332E333131302C4E2C30393730362E323332302C572C322C30342C322C2B303333382E302C4D2C2C2C2A0125

53 - ASCII for “S”50 - ASCII for “P”004A- Sz - size is bytes0001 - ID - ID is 00010002 - Ver - Version is 200 - Shot Pro Decoder # 000000000 - Shot ID = 000000000 - EP ID = 02447...2C2C2A - ASCII GPS message-

$GPGGA,161839,3643.3110,N,09706.2320,W,2,04,2,+0338.0,M,,,*161839 - GPS time - 16 hrs, 18 min 39 sec3643.3110,N - Latitude 36°43.3110’N09706.2320,W - Longitude 097°06.2320’W2 - quality = 204 - satellites =42 - DOP =2+0338.0,M - elevation = 338.0 meters,,, - blank fields, Geoidal Separation, Age of Diff.GPS, Ref ID #* - end of data no $GPGGA checksum

01 - Average Mode is set to 125 - Chksum - XOR chksum

Revision Response Message - Id = 0006: (STD Only)

SP Sz(2) Id(2) Version(2) Revision(2) ChkVal(1)

This message returns the revision level software/firmware in use by thePelton System. The Version field is specious in that the RecordingSystem must be prepared to accept this message whatever the value in theVersion field. The system cannot know the version level of each messageuntil after the Revision Request message has been sent and the RevisionRequest message is received. The Version field is included here forconsistency.

This message should be formulated and sent immediately upon receipt ofthe Revision Request Message as the Recording System requires thismessage to properly initialize the messaging system.

Options Page 13.1.10



This document reflects Revision level 2.


535000070006000102010453 - ASCII for “S”50 - ASCII for “P”0007 - Sz - size is 7 bytes0006 - ID - ID is 00060001 - Ver - Version is 10201 - Rev - Major Revision is 2 release number is 104 - Chksum - XOR chksum of ID, Ver, & Revision =04hex

SHOTPRO PSS Information Message - Id = 0009: (STD Only)

SP Sz(2) Id(2) Version(2) ShotPro#(1) CTB(2) FirstPick(2)FireLineResist(2) GeophoneResist(2) Status(1) ChkVal(1)

The Shot Pro data will be sent after each shot.

The ShotPro# field identifies the current Shot Pro by number, range : 0- 15.

The CTB field contains Confirmed Time Break data in microseconds. TheFirst Pick field contains Up-hole Geophone Pick Time data in 500 µSec perstep. The Fire Line Resistance and Geophone Resistance fields containsresults of measurements for the Fire Line and Geophone Line resistance in0.1 ohm steps. The bits in the Status field contains following data:

0 = No Fire1 = Box fired and Status received. All OK2 = Status from decoder not received3 = Status from decoder received but uphole data not received4 = Decoder has low battery indication5 = Uphole geophone not measured or out of specification6 = Cap resistance not measured or out of specification7= Automatic First Pick not successful





5350000F000900010100C8001C00320BB8015D53 - ASCII for “S”50 - ASCII for “P”000F - Sz - size is 15 bytes0009 - ID - ID is 00090001 - Ver - Version is 101 - Shot Pro # is 100C8 - CTB is 200 microseconds001C - First Pick is 14 milliseconds0032 - Fire Line Resistance is 5.0 ohms0BB8 - Geophone Resistance is 300.0 ohms01 - Status is 01 everything OK5D- Chksum - XOR chksum of ID, Ver, Shotpro#, CTB, FP, Res& Status=5D hex




Shot Pro Decoder ASCII PSS Message: (STD and Sercel)

*SHOT PRO # 00 PSS, STATUS = 00, CTB = 00.000 mSec, FIRSTPICK = 000.0mSec

$GPGGA….

The Shot Pro ASCII Message will be sent from the Decoder on the secondRS232 serial port with a Baud Rate of 9600, No Parity, 8 Data Bits, and1 Stop Bit.

The message is all ASCII data which begins with * (2A Hex) and ends withCarriage Return and Line Feed (0D0A Hex). All commas and spaces areincluded it the ASCII message. If a GPS position was taken with theshot, the $GPGGA ASCII message will be sent and will also end with aCarriage Return and Line Feed (0D0A Hex).

The SHOT PRO # field identifies the current Shot Pro by number, range :0 - 99.

The STATUS field indicates the status of the shot.00 = Decoder did not fire01 = Shot Fired and Status received. All O.K.02 = Status not received03 = Status received, but Uphole data not received04 = Decoder low battery warning05 = Uphole geophone not measured or out of tolerance06 = Cap resistance not measured or out of tolerance07 = Automatic Uphole Time Pick not successful

The CTB field contains Confirmed Time Break data in 1 microsecond perstep. This is defined as the time required for the cap line to becomeopen circuit. Normal value should be between 0.2 and 0.8 milliseconds.

The FIRSTPICK field contains Up-hole Geophone Pick Time data in 500microseconds per step.

Example ASCII Message:

*SHOT PRO # 3 PSS, STATUS = 01, CTB = 02.124 mSec, FIRSTPICK = 039.5mSec

$GPGGA,011825,3643.3110,N,09706.2320,W,2,04,2,+0338.0,M,,M,,




SERCEL MODE ONLY

PROTOCOL SERCEL SN388 ----> PELTON SHOT PRO ENCODER

*SP#.../SL#.../SN#.../SI#.../SEQ#...<CR><LF>with Min. Max.Shot Number SP#sssss 1 99999Source Point Line SL#lllll.l 0.0 99999.9Source Point number SN#lllll.l 0.0 99999.9Source Point Index SI#1 1 9Blaster number SEQ#ss 01 16

EXAMPLE:

*SP#283/SL#41.2/SN#13.5/SI#1/SEQ#7

Hexadecimal for this ASCII message is:

2A5350233238332F534C2334312E322F534E2331332E352F534923312F53455123370D0A




Protocol the Shot Pro Encoder----> 388 via the xdev box. (Sercel Only)

*SHOTPRO SP#.../SL#.../SN#.../SI#.../SEQ#.../STA:../CTB:00.000/UH:000.0withSHOTPRO String to identify data is from the Pelton shooting system.

Min. Max.Shot Number SP#sssss 1 99999Source Point Line SL#lllll.l 0.0 99999.9Source Point number SN#lllll.l 0.0 99999.9Source Point Index SI#1 1 9Blaster Number SEQ#ss 01 16Blaster Status STA:s 0 7Confirmed Time Break CTB:cc.ccc 00.000 33.000Uphole Time (FirstPick) UH:uuu.u 000.0 999.5 (.5 mSec steps)

This message will immediately be followed by the GPS $GPGGA message ifGPS is used with the Shot Pro. If GPS is not used, the above messagewill be followed by a <CR><LF>. If GPS is used, the $GPGGA message willbe followed by <CR><LF>.

BLASTER STATUS CODES

0 = No Fire (Radio Status Received but box did not fire) 1 = Shot Fired and Status received. All OK 2 = No Status received (Radio Problem) 3 = Status Received but no Uphole analog data (Radio Problem) 4 = Decoder Low Battery warning 5 = Up Hole Geophone resistance not measured or out of

tolerance. 6 = Cap resistance not measured or out of tolerance. 7 = Automatic Uphole Time Pick not successful.

The Shot Pro Encoder ---> 388 ASCII message will not be sent until theradio data has been decoded. It takes 3 seconds after the shot to getall of the data sent back and decoded from the radio.




EXAMPLE:

PELTON ----> SERCEL XDEV BOX*SHOTPRO SP# 283/SL# 41.2/SN# 13.5/SI#1/SEQ#7/STA:1/CTB:01.868/UH:041.0$GPGGA,161050,3645.1926,N,09705.0707,W,2,06,1,+0321.0,M,,M,,


2A53484F5450524F2053502320203238332F534C2320202034312E322F534E2320202031332E352F534923312F53455123372F5354413A313F4354423A30312E3836382F55483A3034312E30202447504747412C3136313035302C333634352E313932362C4E2C30393730352E303730372C572C322C30362C312C2B303332312E302C4D2C2C4D2C2C0D0A

When GPS data is present, one ASCII space (20 hex) separates the end ofthe Shot Pro message and the start of the GPS $GPGGA message.




PELTON ----> SERCEL XDEV BOX (NO GPS DATA)

EXAMPLE:

*SHOTPRO SP# 283/SL# 41.2/SN# 13.5/SI#1/SEQ#7/STA:6/CTB:01.851/UH:041.0


2A53484F5450524F2053502320203238332F534C2320202034312E322F534E2320202031332E352F534923312F53455123372F5354413A362F4354423A30312E3835312F55483A3034312E300D0A

When the GPS data is not present, an ASCII for <CR> <LF> (0D0A) ends themessage after the Up Hole time data.

The above message has a status of 6 Cap resistance not measured or out oftolerance.

Block Diagrams Page 14.1.1



Shot Pro Block Diagrams

The Shot Pro Overall Block Diagram shows connections between the variouscomponents of the of the system and helps visualize the operation of theShot Pro.

The Primary Power Block Diagram shows the functions and locations of thevarious power supplies.

The High Voltage and Firing Circuitry block diagram shows the highvoltage section functions, control, and firing circuitry.

The Metering and Uphole Amp. block diagram shows the circuitry involvedwith those functions, which is almost entirely on the Analog Board.

The Digital Board block diagram shows the more important signals andfunctions of the Digital Board.

Uphole Page 15.1.1



UPHOLE SIMULATOR OPTIONDescription

The Pelton Uphole Simulator is designed to receive a firing signal froma dynamite detonator, such as the Pelton Shot Pro, and produce a signalsimilar to the signal that could be produced by a geophone placed at thetop of the shot hole. The CAP wires of the simulator should be connectedto the firing line of the detonator unit. This connection may be madewithout regard to polarity. The UPHOLE cable should be connected to thedetonator where the uphole geophone would normally be connected. Thepolarity of this connection will determine whether the break of theuphole signal is positive or negative. The geophone signal from thesimulator is a square wave. The level and timing of the square wave arecontrollable by switches on the front panel of the simulator.

Specifications

Power: Internal 9 Volt battery

Input: 20 to 1000 Volts, 15 to 40 Amps

Output: .15, 2, or 4 Volt pulse, 2 or 5 mSec long

Delay of output pulse after input signal: 10, 20, or 40 mSec

Dimensions: 3" X 6" X 2.25" (76mm X 55mm X 152mm) excluding cables

Weight: 1 lb. 1.5 oz (.49 Kg) including battery and cables

Uphole Page 15.1.2



Operation

1. Set the Power switch of the simulator to the ON position.

2. Press the TEST switch and observe the LED for a brief flash. TheLED has a focused beam. The flash may not be visible from viewingangles other than nearly directly in front of the unit.

3. Connect the CAP wires of the simulator to the firing line of thedetonator. The Polarity of this connection is not critical.

4. Connect the UPHOLE wires of the simulator to the uphole geophoneinput of the detonator. The polarity of this connection willdetermine whether the uphole signal breaks positive or negative.

5. Set the WIDTH switch for 2 or 5 mSec.

6. Set the DELAY switch for 10, 20, or 40 mSec.

7. Set the Volts switch for 0.15, 2, or 4 Volts.

8. When the detonator box fires, the simulator will do the following:

a. Wait for an amount of time determined by the DELAY switch.

b. Output a square wave signal, the duration and amplitude controlled by the WIDTH and VOLTS switches.

c. The LED will flash when the uphole signal is issued.

Uphole Page 15.1.3



TROUBLESHOOTING

Battery Life

The battery life is usually quite long. Units left on continuously maystill have adequate battery for as long as fourteen days, depending onthe capacity of the battery used.Low battery will cause one or more of the following indications:

1. Wrong delay between shot and uphole signal

2. Dim LED indication

3. Low uphole signal amplitude

Uphole Signal

The amplitude of the uphole signal will be affected by the load thedetonator presents to the uphole signal line. The voltages listed aroundthe VOLTS switch are accurate if the load is about 2000 Ohms.

Firing Current

The firing signal must be greater than 15 Amps for the simulator torespond.

Safety Page 16.1.1



SAFETY

The following Safety Guidelines were published in the Seventh Edition ofthe IAGC Land Geophysical Operation Safety Manual.

The IAGC Safety Manual has been prepared and compiled through the bestefforts of the IAGC staff and others. However, IAGC or Pelton Co. doesnot represent that this is entirely comprehensive, accurate or coverseach and every safety topic or risk which may be encountered by thoseusing this manual and the IAGC and Pelton Co. disclaims allresponsibility and liability for any such utilization of this informationby the users thereof. By receipt of the Shot Pro Manual, therecipient/user agrees to release, indemnify and defend the IAGC andPelton Co. from and against any and all claims, demands and liabilitieswhich may arise from the utilization of the manual by such recipients/users.

LAND SURFACE SHOOTING

1. Before any surface shooting begins, a plan will be made and approvedby management and client detailing --

A. Type and amount of explosive used, including fire retardantcharacteristics.

B. A pattern diagram.

C. The method of operation.

D. Safety requirements including sympathetic detonationprevention.

E. Aircraft operations.

2. Procedures to ensure the safety of employees, the public, livestock,wildlife and property shall be established prior to anyimplementation of surface shooting techniques using explosives.

3. Explosives shall be transported and handled according to prevailingregulations.

4. Detonators shall be transported and handled in compliance with localregulations.

5. Employees working in the shot area shall be provided with approvedhearing protection devices, and shall wear them at the time of thedetonation shot.

6. Employees working in the shot area shall wear hard hats.

Safety Page 16.1.2



7. Employees shall be thoroughly instructed in the hazards that existin surface shooting techniques, and a warning system shall beestablished.

8. Shooter and shooter's helpers should be aware of overhead falloutfrom trees, cliffs, or rocks resulting from the shot. Stay up slopeof the shot point in case there is landslide and loosened rocks.

9. The supervisor shall monitor and enforce the use of personalprotective equipment provided to the employees.

10. Prior to actual layout of explosives, each employee shall beassigned a specific duty to perform, and instructed to adhere to theplanned procedure. Should that procedure be altered in any manner,the employee in charge of the layout operation shall be notified ofthat change, and all members of the layout crew shall be made awareof that change. Additional instructions shall be given at this timeto alleviate any chance the altered procedure might pose additionalhazards.

11. Only qualified persons (shooters and helpers) designated by theperson in charge shall prime explosives, and then only wheninstructed by that supervisor.

12. Minimum distances shall be maintained between persons handlingexplosives or exposed charges and any transmitter.

13. The shooter shall have complete control of the shot detonation. Hecan, at any time, abort the shot due to any abnormality at the shotlocation.

14. Communications between the shooter, explosives crew, and all othermembers of the crew shall be established prior to detonation inorder to eliminate any chance of anyone entering the shot area. Allcrew members should report the presence of any non-crew members seenin the operation area.

15. In the event the shot pattern is located in such a configurationthat the entire pattern is not visible to the shooter, guards, orobservers shall be positioned in such a manner as to be visible tothe shooter and -- at the same time -- to have clear visibility ofthe shot area. If the area is located in such a way as to make thisimpossible, audible communication shall be established, either byradio or prearranged signals, as to the conditions of the shot areabetween the guards or observers and the shooter. The shot shall notbe detonated until the shooter is completely satisfied the area issecured.

16. An audible signal -- or sufficient audible level to be heard withinthe area of the shot pattern, shall be sounded prior to each shottime.

Safety Page 16.1.3



17. No employee shall enter the shot area after detonation until theshooter or employee in charge gives permission to do so.

18. Warning signs shall be posted on all roads and trails that lead tothe shot area. The signs will denote the use of explosives in thatarea. Use the local language on all signs and placards.

19. All permit stipulations concerning crew conduct and clean-upoperations shall be strictly followed and enforced.

General Provisions

Do not store, handle, transport, or use explosives or blasting agentswhen there is an undue hazard to life and/or property.

1. Do not handle, transport, or use explosives while under theinfluence of any disabling drug, alcohol, illness, or infirmity.

2. Only qualified and authorized persons shall handle and useexplosives.

3. All persons handling explosives or working around explosives mustread and become familiar with the manufacturer's "dos and don'ts"usually packaged in every case of explosives and electric blastingcaps (detonators).

4. Explosive handlers should be individually certified for a pre-defined period. They should confirm and sign in writing that theyhave understood all explosives handling procedures.

All explosives must be accounted for at all times!!!

1. The employer must maintain an Inventory and Use record of allexplosives, according to local regulations.

2. Any knowledge of theft or loss of explosive materials must bereported to the supervisor who, in turn, must promptly notify thecorresponding local and national authority.

3. Explosives must be stored in an approved magazine.

4. Do not leave stored explosives unattended, except when in a magazineapproved for unattended storage.

5. All loaded shot holes must be attended or protected. A protectedhole is one that has been loaded so that the charge cannot beremoved. A charge must be secured in the hole by anchors, stemming,or tamping. The detonator leads should be inaccessible to, orconcealed from unauthorized persons.

Safety Page 16.1.4



6. Never sell or deliver explosives to any unauthorized person.

7. Empty boxes, paper, and fiber packing materials that have containedexplosives shall not be used again for any purpose, and shall bedestroyed according to the recommendations of the manufacturer.

8. Only use tools, machines, equipment, materials, and devices,procedures or techniques that are approved for the job. Approvedmeans that the device or method has been designed, manufactured andimplemented by competent persons familiar with the type of work, orhave been adopted by a consensus of the industry.

9. All tools, machines, equipment, or devises used with explosivesshall be kept in good condition, and be checked or testedperiodically to ensure that they function properly, and inaccordance with the manufacturer's recommendations.

10. Use older stocks of explosives first. Explosives that have beendeteriorated must be destroyed according to recommendations of themanufacturer.

11. A plan for the means of escape from the vicinity of explosives mustbe provided for employees at all times.

12. Do not detonate explosives in congested areas or in close proximityto any structure, railroad, highway, power line, pier communicationline, dock vessel, or other installation that may be damaged.

13. Do not fight a fire that is in imminent danger of contact withexplosives. Move all employees to a safe area, and guard the firearea against intruders.

14. Insofar as possible, vehicles and motorized equipment should haveexhaust systems designed to provide minimum fire hazards when usedin the vicinity of explosives. Smoking, firearms, matches, openflame lamps, and other flame or heat producing devises and sparksare prohibited in or near any explosive magazine or while explosivesare being handled, transported, or used.

The prohibition against firearms does not apply when they arerequired to protect the health and life of employees and security ofthe explosives, providing they are approved by management.

Safety Page 16.1.5



15. Take the following precautions to prevent accidental discharge ofelectric detonators from current induced by galvanic currents, radiotransmitters, electrical fences, lighting, adjacent power lines,dust, or sand storms, snowstorms or other sources. Extremely highstatic conditions exist in snow or blowing snow. The sameconditions are present during sand storms. Suspend all explosiveoperations during these high static conditions. Disconnectrecording cables to prevent possible damage. Be aware of possibleelectrical shock when touching any grounded metal object.

A. Use static-resistant detonators that are shunted at all times,except when being tested or when ready to fire.

B. Use only approved blaster's galvanometers or other instrumentsdesigned for testing electric detonator circuits.

C. Do not use multimeters or circuit testers to test detonators.

D. Comply with recommendations concerning shooting in the vicinityof radio transmitters, as shown on the following chart.

Minimum Approved Distances Between Point Of HandlingOr Exposed Electric Caps and Transmitters

Used In Seismic Field Operations

DistancePower (Meters) (Feet)

(W) 25 MHz 150 MHz 25 MHz 150 MHz 0 - 5 21 5.8 70 205 - 10 30 9 100 3010 - 50 75 21 250 7050 - 100 105 30 350 100100 - 250 150 47 500 160

Note: For other transmitters -- such as commercial, military, or otherprivate types (TV, microwave, etc.) - identify the type of transmitter,power, and frequency, and contact detonator manufacturer or explosivesupplier for guidelines or offsets.

E. Post warning signs against the use of mobile radio transmitterson all roads within 100 m (350 ft) of the loading and shootingoperations. Signs must have 10-cm (4 in.) white letters with1.4 -cm (5/8-in.) stroke on a red background with words."Explosives in Use -- Turn Off Transmitters," or the equivalentin the local language.

Safety Page 16.1.6



F. Do not use tools, equipment, or material that may causedangerous electrical currents by galvanic action or sparks ina shot hole.

G. Handle and use explosives only during the hours from one-halfhour before sunrise to one-half hour after sunset. Ifexplosives must be handled or used at night, provide and useadequate light.

STORAGE

For this subsection, "storage" means storing explosives and blastingagents in storage facilities under the control of the user. Consultlocal authority for safe distances to explosive storage.

1. Store explosive materials in approved facilities as authorized bythe agency having jurisdiction in the country of operations.

2. Do not store damaged explosives with other explosives, or storeexplosives with a detonator inserted. Contact the supplier todispose of damaged explosives. Damaged explosives should be safelydestroyed.

3. Primers and boosters can be stored with other explosives, but mustnot be stored with detonators.

4. Magazines and use of explosives must be in charge of a competentperson who must enforce all safety precautions. This same personshould be in charge of inventory.

5. Use non-mass detonating cap where available.

6. Keep the area around a magazine clear of any combustible materialfor at least 15 m (50 ft.).

TRANSPORTATION (Not including Aircraft)

For this subsection "transportation" means only the transportation ofexplosives between the user's storage facility and the work location, andbetween work locations. Use the local language on all placards.

1. Do not smoke, carry matches, flame-producing devices, firearms, orloaded cartridges while in or near a vehicle carrying explosives. This prohibition against firearms does not apply when they arerequired to protect the health and life of employees or the securityof the explosives and have been approved by management.

Safety Page 16.1.7



2. Vehicles or conveyances transporting explosives shall only be drivenby, and be in the charge of, a licensed driver who is physicallyfit. He must be familiar with regulations governing thetransportation of explosives in the country or area of operations.

3. Do not carry or transport explosives in, upon a public conveyance,or a vehicle carrying passengers for hire.

4. Vehicles used for transporting explosives must be strong enough tocarry the load without difficulty, be in good mechanical condition,and periodically inspected.

5. Electric detonators can be transported on the same vehicle withother explosives, provided they are segregated and carried in anapproved detonator container.

6. Explosives can be transported on vehicles carrying equipment (i.e.,drills) or materials (i.e., water), provided that the explosives arecarried only in approved magazines securely mounted on the vehicle,and that while on public roads, the magazine and separate detonatorbox are closed and locked.

7. Explosives can be transferred from one vehicle to another within theproject area without notifying authorities, provide that thetransfer is made under qualified supervision, and not in a congestedarea or near a public road, inhabited building, operating equipment,or any kind of loading or shooting operation.

8. When explosives are transported by a vehicle with an open body, theymust be in the original manufacturer's containers, protected againstsparks and moisture with a fire resistant tarpaulin, and lashedsecurely in or on the conveyance.

9. Every vehicle or conveyance used for transporting explosives must bemarked or have placards on both sides, the front, and the rear. Theplacards must signify the class of explosives being transported,unless local government regulations require alternate identificationprocedures.

10. Each vehicle used for transporting explosives must be equipped withtwo fully charged fire extinguisher in good condition. The drivermust be trained in the use of the extinguisher on his vehicle. Thevehicle should also include a first-aid kit, tool kit etc.

11. In the event of breakdown or collision, the local fire and policedepartments must be promptly notified. Explosives should betransferred from the disabled vehicle to another only when qualifiedsupervision is provided.

Safety Page 16.1.8



12. Vehicles or conveyances containing explosives, blasting agents, orblasting supplies must not be taken inside a garage or shop forrepairs or servicing.

13. Vehicles transporting explosives shall avoid congested areas andheavy traffic. Routes for hazardous materials through congestedareas that have been designated by local authorities shall befollowed.

14. Do not leave any vehicle transporting explosives unattended.

15. Explosives or blasting agents not in original containers must beplaced in a suitable container when they are transported manually orby pack animal.

16. Detonators and other explosives must be carried in separatecontainers when they are transported manually or by pack animal.

17. Do not transport explosives manually or with pack animals duringsand or snow storms, or any time where there is a high staticelectricity condition.

USE OF EXPLOSIVES

For this subsection, "use" means handling, loading, and detonatingexplosives to create elastic waves within the earth. Explosives must notbe used for any other purpose. Procedures that ensure safe handling andstorage of explosives at the work area must be established beforeexplosives are transported to work area. If in doubt, contact yoursupplier before receiving explosives.

1. While at the work area, explosives that are not being used must bekept in a magazine or in suitable containers. The magazines must bekept closed, and the doors or lids secured and locked except whenexplosives are being removed or replaced. Locks and lock coversshould be of sufficient quality to ensure the security of theexplosives.

2. There must be no smoking, fire, or open flame within 15 m (50 ft.)of any explosive.

3. Any fire or open flame within 50 m (150 ft.) of any explosive shallnot be upwind from the explosive.

4. Shooters and shooters' helpers should wear appropriate protectivedevices such as hard hats, ear and eye protection.

Safety Page 16.1.9



Procedures that ensure safe handling, preparation, and loading ofexplosive charges shall be established before loading is started.

1. No equipment, persons, or activity other than that required forloading holes with explosives shall be near the hole. All personsin the vicinity of the hole shall be able to hear, see, or otherwisebe aware of any order, warning, or hazardous situation. Whenloading a pattern of holes with more than one loading crew, thecrews shall be separated by distances consistent with safe operationand supervision of crews.

2. Explosives other than the charge being loaded must not be closerthat 3 m (10 ft) of a loaded hole or 8 m (25 ft) of a hole beingloaded, except when explosives are carried in a ready box on thedrilling unit that is used in the loading process. Use specialprecautions if explosives other than the charge being loaded arecloser than 8 m (25 ft) of a hole being loaded.

3. All holes shall be sufficiently large so that the explosivecartridge can be easily inserted.

A. The loader shall check the hole before loading in order toensure that it is open to a safe depth.

B. Load holes immediately after drilling, if possible.

4. Only the explosives required to make up one charge should be removedfrom the ready box or supply.

A. Do not make up or detonate charges in advance.

B. Load a charge immediately after it is made up.

5. Do not prime the charge until it is at the hole and is ready toload.

6. Priming must be in accordance with the manufacturer'srecommendations, and may vary from one explosive product to another.

A. Insert detonators in holes provided by the manufacturer or inholes made with a suitable tool of non-sparking material.

B. Primes charges as near to the top of the charge as is safe.

C. After the detonator has been inserted in the charge, place twohalf-hitches of the detonator leads around the charge in orderto prevent strain on the detonator.

D. When a charge is made up of more than one cartridge, load theprimed stick last or at the top. When the charge is loaded inthe hole, and before any stemming (hole plugging) is done,check the circuit with an approved blaster's galvanometer. Stand clear of the hole while testing.

Safety Page 16.1.10



7. Unfold or unspool the detonator leads only as necessary in order tolower the primed charge. Never toss or throw a detonator in theair, or extend them along the ground until the charge is in place.

8. Loading poles shall be of wood or other non-conducting material thatdoes not collect static electricity. Connectors, stingers, spoons,and any other metal parts shall be non-sparking.

9. No sparking material shall be exposed on any part of the mechanicalloading device that may come in contact with the explosive.

10. When lowering the charge, avoid excessive strain, kinking, orabrasion of the detonator lead wires. When necessary, use rope orother non-conductive cord to lower a heavy charge.

11. When using loading poles or tools, use only steady pressure toovercome the buoyancy of the charge. The charge shall never bejarred or struck with loading poles or tools.

12. When weights are used to decrease the buoyancy of a charge, theyshall be non-sparking material or fastened to the charge with a non-conductive material.

13. After a primed charge has been loaded, do not try to retrieve itunless detonating or abandoning it would create an undue hazard. Use extreme caution when retrieving a primed charge. As soon as thecharge is withdrawn, carefully remove the detonator.

14. Use suitable means, such as charge anchors or stemming, to ensurethe charge does not float. To determine that the charge is at theproper depth, gently pull the detonator leads until the weight ofthe charge is felt, measure and subtract the remaining detonatorlead from the total detonator lead length usually noted on thespool.

15. Employees must be instructed in the proper procedure for pluggingshot holes after loading.

A. Use only inert substances for the stemming material.

B. When the stemming material is to be compacted with a non-sparking loading pole, place at least 60 cm (2 ft) of thematerial above the charge before using the loading poles.

Safety Page 16.1.11



16. Before detonating any explosive, ensure the safety of employees, thepublic, livestock, wildlife, and the property.

A. The shooter must be in control of the shot point area andstationed a safe distance before initiation of the shot. Theshooter must know the size and depth of the charge, how theshot hole is tamped or plugged, proximity to power lines or anyother structures or installation, and the presence of anypersons in the vicinity of the shot point.

B. The shooter at this station must have an unobstructed view ofthe shot point area, or should station spotters about the areato signal when the area is clear.

C. The shooter must determine the time of the shot, but the shotinstant may be provided remotely from the recordinginstruments. If a remote devise is used, the blasting machineshall have at least one "dead man" type switch that the shootermust close in order to complete the circuit.

D. The firing line must be shunted before detonator leads areconnected, and must be kept shunted until connected to theblasting machine.

E. The connections must be carefully made, and all wires wellinsulated and in good condition. Pattern holes must use aseries circuit firing line.

F. Blasting machines must be capable of delivering current inexcess of that required to fire all the detonators in thecircuit. Use only series circuits. All detonators used in anysingle shot must be of the same function and manufacturer. Donot mix unlike detonators.

G. Test the blasting machines periodically using proceduresrecommended by the manufacturer in order to determine that theyare capable of delivering power at the rated capacity.

H. Before a shot is fired, a loud warning signal shall be given bythe person in charge, who has made certain that all surfaceexplosives are in a safe location, all persons and conveyancesare at a safe distance or under sufficient cover.

I. If there are any misfires, it is recommended that all personsstay away from the charge for at least one half hour. It isnot recommended to reprime a loaded hole, except in supervisedcircumstances.

Safety Page 16.1.12



J. Whenever the detonator leads or firing line might be thrownover a power line by the force of an explosion, ensure that thetotal length of wires is kept too short to hit the lines, andthat the wires are securely anchored to the ground at the shothole.

K. A shot hole should not be drilled closer than two times theprojected hole depth from a power line unless precautions aretaken for hole blow. If a firing line wire is thrown on to apower line, post a guard and call the power company to remedythe situation. Do not touch the blasting machine.

L. When a cased hole is shot, take special precautions to ensureagainst possible injury from casing being ejected from the shothole.

M. Shooters and shooter's helpers should remain upwind and avoidbreathing smoke, fumes, and dust from the shot. These maycause severe headaches and nausea.

N. Always beware of possible delayed blowouts up to five minutesafter the initial shot.

O. Never use more than one firing line in order to avoidconnecting to the wrong firing line and detonating a differentcharge than the one intended.

P. Shooter should check detonator lead and observe the amount oflead exposed. Occasionally, a charge will be pulled towardsurface or float it not properly tamped or loaded.

DOCUMENTATION Page 1


17Jan01 C:\V6MAN\SHOTPRO\SPDOC.DOC

SHOT PRO DOCUMENTATION

SHOT PRO

FSSP-2 BOM SHOT PRO SYSTEM-2 1.1a

FSSP-2DSM BOM SHOT PRO SYSTEM-2 DSM READY 1.1d

FSSPE-2 BOM SHOT PRO ENCODE SYSTEM-2 1.2a

FSSPE-2DSM BOM SHOT PRO ENCODE SYSTEM-2 DSM READY 1.2b

FSSPE-2G BOM SHOP RO ENCODE SYSTEM-2 GPS READY 1.2c

FGSPA-2 BOM SHOT PRO ASSEMBLY-2 1.3a

FGSPA-2DSM BOM SHOT PRO ASSEMBLY-2 DSM READY 1.3b

FGSP-2 BOM SHOT PRO UNIT-2 1.4a

FGSP-2DSM BOM SHOT PRO UNIT-2 DSM READY 1.4b

WSP-2 SCHEM SHOT PRO-2 UNIT WIRING 1.4c

WSP-2 BOM SHOT PRO-2 UNIT WIRING 1.4d

HSPEA BOM SHOT PRO ENCLOSURE ASSEMBLY 1.5a

HSPEAG BOM SHOT PRO ENCLOSURE ASSEMBLY GPS READY 1.5b

HSPFPA-2 BOM SHOT PRO FRONT PANEL ASSEMBLY-2 1.6

HSPBA BOM SHOT PRO BACKPACK ASSEMBLY 1.7

FGRADIO-1 BOM VHF FM RADIO 1.8

FGVHFANT-1 BOM 1/2 WAVE ANTENNA AND ACCESSORIES 1.9

CARDS

FCSPAC-2 SCHEM SHOT PRO ANALOG CARD-2 2.1a

FCSPAC-2 CL SHOT PRO ANALOG CARD-2 2.1b

FCSPAC-2 BOM SHOT PRO ANALOG CARD-2 2.1c

FCSPDC-2 SCHEM SHOT PRO DIGITAL CARD-2 2.2a

FCSPDC-2 CL SHOT PRO DIGITAL CARD-2 2.2b

FCSPDC-2 BOM SHOT PRO DIGITAL CARD-2 2.2c




CABLES

WSPPFP SCHEM SHOT PRO PFP CABLE 3.1a

WSPPFP BOM SHOT PRO PFP CABLE 3.1b

WSPPFPG SCHEM SHOT PRO PFP CABLE GPS READY 3.1c

WSPPFPG BOM SHOT PRO PFP CABLE GPS READY 3.1d

WSPPK BOM SHOT PRO PK CABLE 3.2

WSPPD BOM SHOT PRO PD CABLE 3.3

WSPPA BOM SHOT PRO PA CABLE 3.4

WSP-E/RC SCHEM SHOT PRO ENCODE CABLE 3.5a

WSP-E BOM SHOT PRO ENCODE CABLE 3.5b

WSP-D/RC SCHEM SHOT PRO DECODE CABLE 3.6a

WSP-D BOM SHOT PRO DECODE CABLE 3.6b

WSP-E/RC BOM SHOT PRO ENCODE CABLE ASSEMBLY 3.7

WSP-D/RC BOM SHOT PRO DECODE CABLE ASSEMBLY 3.8

WSPESYC SCHEM SHOT PRO ENCODE/SERCEL Y-CABLE 3.9a

WSPESYC BOM SHOT PRO ENCODE/SERCEL Y-CABLE 3.9b

WRIB-RC SCHEM RADIO INT. BOX TO RADIO CABLE 3.10a

WRIB-RC BOM RADIO INT. BOX TO RADIO CABLE 3.10b

SHOT PRO OPTIONS

FGSPHS BOM SHOT PRO HARDWARE SPARES 4.1

FGSPA-2G BOM SHOT PRO ASSEMBLY GPS READY 4.2

FGSP-2G BOM SHOT PRO UNIT-2 GPS READY 4.3

HSPEAG BOM SHOT PRO ENCL ASSEMBLY GPS READY 4.4

WSPPFPG BOM SHOT PRO PFP CABLE GPS READY 4.5

YUSPG BOM SHOT PRO WITH DIFF. GPS UPGRADE 4.6

YUSPG1 BOM SHOT PRO W/SUB-METER GPS UPGRADE 4.7

FGSPDRU BOM SHOT PRO DSM READY UPGRADE 4.8

WSPJF-M BOM SHOT PRO JF CABLE MODIFICATION 4.9

FSSP-2G BOM SHOT PRO SYSTEM WITH DIFF. GPS 4.10




SHOT PRO OPTIONS (CONT)

FSSP-2G1 BOM SHOT PRO SYSTEM W/SUB-METER GPS 4.11

FSSPGPS-SM BOM SHOT PRO W/EXT SUB-METER GPS 4.12

FSSPSK8 BOM SHOT PRO SK8 GPS SYSTEM 4.13

FSSPDSM BOM SHOT PRO DSM GPS SYSTEM 4.14

FCSPDSM-2 SCHEM SHOT PRO GPS MOUNTING CARD-2 4.15a

FCSPGMC-2 CL SHOT PRO GPS MOUNTING CARD-2CL 4.15b

FCSPDSM-1 BOM SHOT PRO DSM MOUNTING CARD-1 4.15c

FCSPSK8-1 BOM SHOT PRO SK8 MOUNTING CARD-1 4.16

HASPGPSM BOM SHOT PRO GPS MOUNTING ASSEMBLY 4.17

HXSK8A BOM SK8 ANTENNA & MOUNTING HARDWARE 4.18

WSP-D/RC/GPS BOM SHOT PRO DECODE/GPS CABLE SET 4.19a

WSP-D/RC/GPS SCHEM SHOT PRO DECODE/GPS CABLE ASSEMBLY 4.19b

WSP-D/GPS BOM SHOT PRO DECODE/GPS CABLE 4.20

WSPGPSTCS BOM SHOT PRO GPS TEST CABLE SET 4.21

WSPGPSP SCHEM SHOT PRO GPS PROGRAMMING CABLE 4.22a

WSPGPSP BOM SHOT PRO GPS PROGRAMMING CABLE 4.22b

WSPDR SCHEM SHOT PRO-2 UNIT WIRING DUAL RADIO MOD 4.23a

WSPDR BOM SHOT PRO-2 UNIT WIRING DUAL RADIO MOD 4.23b

FGRCC BOM RADIO COMMUNICATIONS CARD (RCC) 4.24a

FSSPEGPS-1 BOM SHOT PRO DSM REFERENCE STATION

USING SINGLE RADIO FOR RTCM 4.25

FSUS BOM UPHOLE SIMULATOR SYSTEM 4.26a

Page 1.1a

Pelton Company, Inc. Page 1 of 1

BILL OF MATERIALS

FSSP-2

SHOT PRO SYSTEM-2

QTY DESCRIPTION STOCK #

.. 1. SHOT PRO MANUAL...................AMSP .. 3. 12 VOLT BATTERY WITH CONNECTOR....FGBATT12V .. 1. 12V BATTERY CHARGER & CONNECTOR...FGBC12V .. 1. VHF FM RADIO......................FGRADIO-1 .. 1. SHOT PRO ASSEMBLY-2...............FGSPA-2 .. 1. SHOT PRO BACKPACK WITH COVER......HSPBA .. 1. SHOT PRO DECODE CABLE ASSEMBLY....WSP-D/RC

06/05/97 10/26/2000 MRG

Page 1.1b


BILL OF MATERIALS

FGBC12V

12V BATTERY CHARGER & CONNECTOR


.. 1. 12V 800MA BATTERY CHARGER.........EBC12800A .. .500 2 CONTACT WEATHER TIGHT CONN......PP2

01/16/98 MRG

Page 1.1c


BILL OF MATERIALS

FGBATT12V

12 VOLT BATTERY WITH CONNECTOR


.. 1. 12V 7 AMP HOUR BATTERY............BPS-1270 .. 1. 12 VOLT BATTERY CONNECTOR CABLE...WBIC

01/09/98 MRG

Page 1.1d


BILL OF MATERIALS

FSSP-2DSM

SHOT PRO SYSTEM-2 DSM READY


.. 1. SHOT PRO MANUAL...................AMSP .. 3. 12 VOLT BATTERY WITH CONNECTOR....FGBATT12V .. 1. 12V BATTERY CHARGER & CONNECTOR...FGBC12V .. 1. VHF FM RADIO......................FGRADIO-1 .. 1. SHOT PRO ASSEMBLY DSM READY.......FGSPA-2DSM .. 1. SHOT PRO BACKPACK WITH COVER......HSPBA .. 1. SHOT PRO DECODE CABLE ASSEMBLY....WSP-D/RC

09/23/99 10/26/2000 KJG

Page 1.2a


BILL OF MATERIALS

FSSPE-2

SHOT PRO ENCODE SYSTEM-2


.. 1. SHOT PRO MANUAL...................AMSP .. 1. VHF FM RADIO......................FGRADIO-1 .. 1. SHOT PRO ASSEMBLY-2...............FGSPA-2 .. 1. SHOT PRO ENCODE CABLE ASSEMBLY....WSP-E/RC

06/03/97 10/26/2000 MRG

Page 1.2b


BILL OF MATERIALS

FSSPE-2DSM

SHOT PRO ENCODE SYSTEM-2 DSM READY


.. 1. SHOT PRO MANUAL...................AMSP .. 1. VHF FM RADIO......................FGRADIO-1 .. 1. SHOT PRO ASSEMBLY DSM READY.......FGSPA-2DSM .. 1. SHOT PRO ENCODE CABLE ASSEMBLY....WSP-E/RC

09/23/99 10/26/2000 KJG

Page 1.2c


BILL OF MATERIALS

FSSPE-2G

SHOT PRO ENCODE SYSTEM-2 GPS READY


.. 1. SHOT PRO MANUAL...................AMSP .. 1. VHF FM RADIO......................FGRADIO-1 .. 1. SHOT PRO ASSEMBLY GPS READY.......FGSPA-2G .. 1. SHOT PRO ENCODE CABLE ASSEMBLY....WSP-E/RC

06/28/99 10/26/2000 KJG

Page 1.3a


BILL OF MATERIALS

FGSPA-2

SHOT PRO ASSEMBLY-2


.. 1. SHOT PRO UNIT-2...................FGSP-2 .. 1. SHOT PRO MOUNTING PLATE...........FGSPMP

06/03/97 MRG

Page 1.3b


BILL OF MATERIALS

FGSPA-2DSM

SHOT PRO ASSEMBLY DSM READY


.. 1. SHOT PRO UNIT-2 DSM READY.........FGSP-2DSM .. 1. SHOT PRO MOUNTING PLATE...........FGSPMP

09/23/99 KJG

PELTON COMPANY, INC. Page 1.4a

Page 1 of 1

BILL OF MATERIALS

FGSP-2

SHOT PRO UNIT-2


.. 1. SHOT PRO ANALOG CARD-2............FCSPAC-2 .. 1. SHOT PRO DIGITAL CARD-2...........FCSPDC-2 .. 1. SILICAGEL DESICANT PACK...........HD1022 .. 1. SHOT PRO ENCLOSURE ASSEMBLY.......HSPEA .. 1. SHOT PRO FRONT PANEL ASSEMBLY-2...HSPFPA-2

06/03/97 06/20/97 MRG

Page 1.4b


BILL OF MATERIALS

FGSP-2DSM

SHOT PRO UNIT-2 DSM READY


.. 1. SHOT PRO ANALOG CARD-2............FCSPAC-2 .. 1. SHOT PRO DIGITAL CARD-2...........FCSPDC-2 .. 1. SHOT PRO DSM MOUNTING CARD-1......FCSPDSM-1 .. 1. SHOT PRO GPS MOUNTING ASSEMBLY....HASPGPSM .. 1. SILICAGEL DESICANT PACK...........HD1022 .. 1. SHOT PRO ENCL ASSEMBLY GPS READY..HSPEAG .. 1. SHOT PRO FRONT PANEL ASSEMBLY-2...HSPFPA-2

09/23/99 KJG

Page 1.4d


BILL OF MATERIALS

WSP-2

SHOT PRO WIRING-2


.. 1. SHOT PRO PA CABLES................WSPPA .. 1. SHOT PRO PD CABLE.................WSPPD .. 1. SHOT PRO PFP CABLE GPS READY......WSPPFPG .. 1. SHOT PRO PK CABLE.................WSPPK

07/14/2000 KJG

Page 1.5a

Pelton Company, Inc Page 1 of 1

BILL OF MATERIALS

HSPEA

SHOT PRO ENCLOSURE ASSEMBLY


.. 1. 40-002 SHOT PRO ENCLOSURE.........HESP .. 1. #18 PANEL MOUNT GASKET............HGASKET18 .. 4. #4 INTERNAL LOCKWASHER............HILW4 .. 3. 4-40 KEP NUT......................HN440K .. 1. 4-40 LOCK NUT/NYLON INSERT........HN440NL .. 4. .3 INCH RUBBER PADS/ADHESIVE......HR5027BK .. 20. 10-32 HEX HEAD SS SCREW...........HS1034H .. 1. 4-40X1/2 BH SS SCREW.............HS412B .. 3. 4-40X3/8 BH SS SCREW.............HS438B .. 20. #10 SEALING WASHER NEOPRENE.......HWS10 .. 1. SHOT PRO PA CABLES................WSPPA .. 1. SHOT PRO PD CABLE.................WSPPD .. 1. SHOT PRO PFP CABLE................WSPPFP .. 1. SHOT PRO PK CABLE.................WSPPK

10/21/96 04/04/97 KJG

Page 1.5b


BILL OF MATERIALS

HSPEAG

SHOT PRO ENCL ASSEMBLY GPS READY


.. 1. 40-010 SHOT PRO ENCL-2 GPS READY..HESP-2 .. 4. #4 INTERNAL LOCKWASHER............HILW4 .. 4. 4-40 LOCK NUT/NYLON INSERT........HN440NL .. 4. .3 INCH RUBBER PADS/ADHESIVE......HR5027BK .. 20. 10-32 HEX HEAD SS SCREW...........HS1034H .. 1. 4-40X1/2 BH SS SCREW.............HS412B .. 3. 4-40X3/8 BH SS SCREW.............HS438B .. 20. #10 SEALING WASHER NEOPRENE.......HWS10 .. 1. SMA FEMALE-N FEMALE PANEL MOUNT...HXPE9252 .. 1. SHOT PRO WIRING-2.................WSP-2

09/04/98 07/14/2000 KJG

Page 1.6


BILL OF MATERIALS

HSPFPA-2

SHOT PRO FRONT PANEL ASSEMBLY-2


DT3 .. 2. SURGE ARRESTOR....................DTAC240 DT4 .. 1. SHOT PRO I/F CARD.................FCSPIFC .. 1. GREY RUBBER PUSHBUTTON COVER......H40151GY .. 1. RED RUBBER PUSHBUTTON COVER.......H40151RD .. 4. FERRULE...........................H7164 .. 1. SEIKO 128X128 GRAPHIC LCD DISP....HG121C .. 2. #4 INTERNAL LOCKWASHER............HILW4 .. 6. #8 INTERNAL LOCKWASHER............HILW8 .. 4. 2-56 LOCK NUT/NYLON INSERT........HN256NL .. 2. 4-40 HEX NUT......................HN440 .. 6. 8-32 KEP NUT 18-8.................HN832K .. 2. HEX HEAD BINDING POST RED.........HP0312 .. 4. 10-32X1/2 FH SS SCREW............HS1012F .. 5. #10 SOLDER LUG....................HS141010 .. 4. #4 SOLDER LUG 7/8 LONG..........HS14104 .. 1. #8 SOLDER LUG.....................HS14108 .. 2. 4.15 ROUND HANDLE.................HS3240 .. 6. 8-32 X 13/16 M/F HEX SPACER.......HS4539 .. 6. 8-32 X 1.5 M/F HEX SPACER.........HS8290 .. 4. SPACER 1/4 RND. .188 L #4 BODY....HS8703 .. 2. SPACER 3/16 HEX .25 L 4-40THRD...HS9147 .. 1. 40-001 SHOT PRO FRONT PANEL-1.....HSPFP-1 .. 4. #4 FLATWASHER.....................HWC4 PSA .. 1. 3 CONTACT CRIMP CONNECTOR.........JC3-1 PSC .. 1. 4 CONTACT CRIMP CONNECTOR.........JC4 PS .. 1. 5 CONTACT CRIMP CONNECTOR.........JC5-1 OF3-4 .. 2. EMI PI SECTION FILTER 500WV.......OF050 .. 7. 22-30 AWG CRIMP CONNECTOR.........P08-65 .. 2. MOLEX 08-58-0189 PINS/JC8 SOCKET..P8P .. 1. .025 SQ. 2 PIN TERMINAL STRIP.....PP36-22 SP2 .. 1. 4PST MOMENTARY PUSHBUTTON BLK.....SP4SM SP1 .. 1. DPDT RED MOMENTARY PB SWITCH......SPSDM .. 1. 18 GA. INSULATED BLACK WIRE.......W18GB .. 1.500 18 GA HIGH VOLTAGE INSULATED RED..W18GHV .. 2. 20 GA. INSULATED BLACK WIRE.......W20GB .. .250 20 GA. INSULATED RED WIRE.........W20GR .. .750 22 GA. INSULATED BLUE WIRE........W22GBL .. .750 22 GA. INSULATED BROWN WIRE.......W22GBR .. .750 22 GA INSULATED GREEN WIRE........W22GG .. .750 22 GA. INSULATED ORANGE WIRE......W22GO .. .750 22 GA. INSULATED RED WIRE.........W22GR

06/03/97 11/18/98 MRG

Page 1.6


BILL OF MATERIALS

HSPFPA-2

SHOT PRO FRONT PANEL ASSEMBLY-2


.. .750 BELDEN 8524/1000 22GA. VIOLET.....W22GV .. .750 22 GA. INSULATED YELLOW WIRE......W22GY

06/03/97 11/18/98 MRG

Page 1.7


BILL OF MATERIALS

HSPBA

SHOT PRO BACKPACK WITH COVER


.. 1. SHOT PRO BACKPACK ASSEMBLY........HSPBPA .. 1. SHOT PRO BACK PACK COVER..........HSPCVR

01/08/97 03/10/2000 MRG

Page 1.7b


BILL OF MATERIALS

HSPBPA

SHOT PRO BACKPACK ASSEMBLY


.. 1. BACKPACK FRAME....................HBP-K2853 .. 9. 10-32 KEP NUT 18-8................HN1032K .. 2. 8-32 KEP NUT 18-8.................HN832K .. 9. 10-32X1/2 FH SS SCREW............HS1012F .. 2. 3/4X24 POLYESTER STRAP W/BUCKLE...HS23035 .. 4. 4-40 X 1.25 BINDING HEAD..........HS4125B .. 2. 8-32X3/8 FH SS SCREW.............HS838F .. 1. 40-004 ANT. MTG. BRACKET..........HSPAMB .. 1. 40-008 SHOT PRO BATTERY MOUNT.....HSPBM

03/10/2000 KJG

PELTON COMPANY, INC. Page 1.8

Page 1 of 1

BILL OF MATERIALS

FGRADIO-1

VHF FM RADIO


.. 1. 1/2 WAVE ANTENNA & ACCESSORIES....FGVHFANT-1 .. 1. VHF FM RADIO......................FGVHFRADIO

03/17/97 MRG


Page 1 of 1

BILL OF MATERIALS

FGVHFANT-1

1/2 WAVE ANTENNA & ACCESSORIES


.. 1. PL259 WITH UG175 ANT. CONNECTOR...HX259/175 .. 1. MINI UHF PLUG 81-103..............HX81-103 .. 1. BA ANTENNA CONNECTOR..............HXBA .. 1. ANTENNA SPRING....................HXSPRING .. 1. 1/2 WAVE BASE LOAD 144-174Mhz.....HXW150C .. 1. W540 54IN. WHIP ANTENNA...........HXW540 .. 1. RG58 50 OHM COAX CABLE............WRG58C

03/17/97 MRG

Page 2.1c

Pelton Company, Inc. Page 1 of 3 BILL OF MATERIALS FCSPAC-2 SHOT PRO ANALOG CARD-2 QTY DESCRIPTION STOCK # CD1-2 .. 5. .01MF 1KV DISC CERAMIC............CD.01MJG CD7 .01MF 1KV DISC CERAMIC............CD.01MJG CD12-13 .01MF 1KV DISC CERAMIC............CD.01MJG CD14-15 .. 7. 0.01 MFD DIP CAPACITOR............CD.01SW CD19 0.01 MFD DIP CAPACITOR............CD.01SW CD21-22 0.01 MFD DIP CAPACITOR............CD.01SW CD25-26 0.01 MFD DIP CAPACITOR............CD.01SW CD18 .. 4. 0.1 MFD DIP CAPACITOR.............CD.1SW CD20 0.1 MFD DIP CAPACITOR.............CD.1SW CD23-24 0.1 MFD DIP CAPACITOR.............CD.1SW CE6 .. 1. 2.7 MFD ELECTROLYTIC CAPACITOR....CE2.7MCF CE5 .. 1. 22 MFD ELECTROLYTIC CAPACITOR.....CE22MBF CE8-9 .. 2. 56MF 450V ELECTROLYTIC............CE56MGF CM3 .. 1. .0022 MFD. MYLAR CAPACITOR........CM2.2NDE CM10-11 .. 2. .0033 MFD POLYCARB. CAPACITOR.....CM3.3NCC CM29 .. 1. .056 MFD. MYLAR CAPACITOR.........CM56NDE CS27-28 .. 2. 100 PFD. SILVER MICA CAPACITOR....CS100PGE DS3-6 .. 6. 70V SCHOTTKY BARRIER DIODE........DHMBD701L DS8-9 70V SCHOTTKY BARRIER DIODE........DHMBD701L DS1-2 .. 2. 50V 1A POWER DIODE................DS1N4001 DS12 .. 1. 200 VOLT 1 AMP. POWER DIODE......DS1N4004 DS13 .. 1. GEN. PURPOSE SIGNAL DIODE.........DS1N457A DT1-2 .. 2. SURGE ARRESTOR....................DTAC240 DZ10 .. 1. 500MW GLASS ZENER DIODE 2.5V......DZ1N5222B DS11 .. 1. 600 VOLT 3 AMP RECTIFIER..........DZ1N5406 DZ7 .. 1. 5.1 VOLT ZENER DIODE..............DZ1N5523B PS2 .. 1. 12VDC TO 600V HIGH VOLTAGE PS.....EP9237 PS1 .. 1. 5V-5V ISOLATION DC/DC CONVERTER...EPHPR400 .. 1. SHOT PRO ANALOG CARD-2 PCB........GSPAC-2 .. 1. NYLON FLAT WASHER.................HFWN .. 5. 4-40 KEP NUT......................HN440K .. 2. 3M 3518-0000 POLARIZING KEY.......HPKEY-1 .. 1. 2-56X5/16 BH SS SCREW............HS2516B .. 2. 4-40 X 1.25 BINDING HEAD..........HS4125B .. 1. 4-40X1/2 BH SS SCREW.............HS412B .. 2. 4-40X5/16 BH SS SCREW............HS4516B .. 1. 6-32X5/16 BH SS SCREW............HS6516B OA4 .. 1. RAIL TO RAIL OP AMP...............IC822AN .. 3. 6 POS EXTENDED PIN DIP SOCKET.....JS6ED .. 7. 8 POS EXTENDED PIN DIP SOCKET.....JS8ED KM6-7 .. 2. 12V SINGLE POLE POWER RELAY.......KM12SP KM2 .. 1. 4PDT 5 VOLT 1 AMP RELAY...........KM214-05 01/30/97 01/03/01 MRG

Page 2.1c

Pelton Company, Inc. Page 2 of 3 BILL OF MATERIALS FCSPAC-2 SHOT PRO ANALOG CARD-2 QTY DESCRIPTION STOCK # KM8 .. 1. DPDT 12V RELAY....................KM412-12 KM1 .. 1. 5 VOLT RELAY......................KM5TN KO5 .. 1. DUAL LOGIC GATE OPTOCOUPLER.......KO2232 KO3 .. 1. OPTICALLY COUPLED RELAY...........KO8060 KO6 .. 2. OPTICAL ISOLATOR..................KOH11L1 KO9 OPTICAL ISOLATOR..................KOH11L1 KO4 .. 1. DUAL OPTICAL COUPLER..............KOILD30 IC6 .. 1. ISOLATION AMPLIFIER...............OA130 OA1 .. 1. PROGRAMMABLE INSTRUMENTATION AMP..OAPGA204 OA5 .. 1. LOW POWER COMPARATOR..............OC931EPA OF2 .. 1. LP 8 POLE BESSEL 300 HZ FILTER....OFD68L8L VR1 .. 1. CURRENT REGULATOR.................OLM334 JSC .. 1. 4 PIN 90 DEGREE PCB MOUNT.........PC4-1 JSA .. 1. 3 PIN 90 DEGREE PCB MOUNT.........PP3 JA .. 1. 34 PIN 90 SHORT EJECTOR 1/8 PCB...PP34-7 JF-UH .. 1. 4 PIN 90 DEGREE PCB MOUNT.........PP4 Q1 .. 1. NPN GENERAL PURPOSE TRANSISTOR....Q2N3904 Q5 .. 1. PNP SILICON TRANSISTOR............QMPS6518 Q3 .. 1. TMOS POWER FET....................QMTP4N80E Q4 .. 1. TMOS POWER FET....................QMTY30N50E Q2 .. 1. 2 CH COMMON-SOURCE POWER DMOS.....QTPIC2202 RF49 .. 1. .5 OHM 5 WATT 500V 1%.............RF.5UGC RF12 .. 7. 100K 1/4W 1% RESISTOR.............RF100KBC RF15-16 100K 1/4W 1% RESISTOR.............RF100KBC RF33 100K 1/4W 1% RESISTOR.............RF100KBC RF45 100K 1/4W 1% RESISTOR.............RF100KBC RF70 100K 1/4W 1% RESISTOR.............RF100KBC RF71 100K 1/4W 1% RESISTOR.............RF100KBC RF9 .. 1. 100 OHM 1/4W 1% RESISTOR..........RF100UBC RF3-4 .. 4. 10K 1/4W 1% RESISTOR..............RF10KBC RF21 10K 1/4W 1% RESISTOR..............RF10KBC RF32 10K 1/4W 1% RESISTOR..............RF10KBC RF26 .. 1. 10 MEG 1/4W 1% RESISTOR...........RF10MBC RF10-11 .. 4. 11.3K 1/4W 1% RESISTOR............RF11.3KBC RF13-14 11.3K 1/4W 1% RESISTOR............RF11.3KBC RF1-2 .. 10. 1K 1/4W 1% RESISTOR...............RF1KBC RF7 1K 1/4W 1% RESISTOR...............RF1KBC RF24-25 1K 1/4W 1% RESISTOR...............RF1KBC RF34 1K 1/4W 1% RESISTOR...............RF1KBC RF46-48 1K 1/4W 1% RESISTOR...............RF1KBC RF52 1K 1/4W 1% RESISTOR...............RF1KBC RF30 .. 1. 2.4 MEG 1/4W 5% RESISTOR..........RF2.4MBE 01/30/97 01/03/01 MRG

Page 2.1c

Pelton Company, Inc. Page 3 of 3 BILL OF MATERIALS FCSPAC-2 SHOT PRO ANALOG CARD-2 QTY DESCRIPTION STOCK # RF42-43 .. 2. 200K 1/4W 1% RESISTOR.............RF200KBC RF6 .. 1. 200 OHM 1/4W 1% RESISTOR..........RF200UBC RF29 .. 1. 20K 1/4W 1% RESISTOR..............RF20KBC RF31 .. 1. 20K 1WATT 1% RESISTOR.............RF20KEC RF5 .. 3. 2K 1/4W 1% RESISTOR...............RF2KBC RF44 2K 1/4W 1% RESISTOR...............RF2KBC RF53 2K 1/4W 1% RESISTOR...............RF2KBC RF50-51 .. 2. 301 OHM 1/4W 1% RESISTOR..........RF301UBC RF28 .. 1. 31.6K 1/4W 1% RESISTOR............RF31.6KBC RF40-41 .. 2. 32.4K 1/4W 1% RESISTOR............RF32.4KBC RF35 .. 1. 4.99 MEG 1% RESISTOR..............RF4.99MBC RF23 .. 1. 5.11K 1/4W 1% RESISTOR............RF5.11KBC RF20 .. 1. 510 OHM 1/4W 5% RESISTOR..........RF510UBE RF39 .. 1. 560 OHM 1/4W 5% RESISTOR..........RF560UBE RF36 .. 1. 619 OHM 1/4W 1% RESISTOR..........RF619UBC RF38 .. 1. 69.8 OHM 1/4W 1% RESISTOR.........RF69.8UBC RF8 .. 3. SELECT RESISTOR 1%................RSEL1% RF27 SELECT RESISTOR 1%................RSEL1% RF37 SELECT RESISTOR 1%................RSEL1% TI1 .. 1. 375 MICRO HENRY INDUCTOR..........TI49321 TI2 .. 1. 12 MILLI HENRY INDUCTOR...........TI50241 01/30/97 01/03/01 MRG

Page 2.2c


BILL OF MATERIALS

FCSPDC-2

SHOT PRO DIGITAL CARD-2


CD34-37 .. 5. 0.01 MFD DIP CAPACITOR............CD.01SW CD48 0.01 MFD DIP CAPACITOR............CD.01SW CD21-33 .. 17. 0.1 MFD DIP CAPACITOR.............CD.1SW CD38-41 0.1 MFD DIP CAPACITOR.............CD.1SW CE2,3 .. 2. 100MFD 35V TANTALUM CAPACITOR....CE100MCF CE1 .. 3. 1.0 MFD ELECTROLYTIC CAPACITOR....CE1MCF CE20 1.0 MFD ELECTROLYTIC CAPACITOR....CE1MCF CE42 1.0 MFD ELECTROLYTIC CAPACITOR....CE1MCF CE6 .. 2. 2.7 MFD ELECTROLYTIC CAPACITOR....CE2.7MCF CE9 2.7 MFD ELECTROLYTIC CAPACITOR....CE2.7MCF CE4-5 .. 6. 22 MFD ELECTROLYTIC CAPACITOR.....CE22MBF CE7-8 22 MFD ELECTROLYTIC CAPACITOR.....CE22MBF CE13-14 22 MFD ELECTROLYTIC CAPACITOR.....CE22MBF CM17 .. 1. .1 MFD. MYLAR CAPACITOR...........CM100NDE CM11 .. 2. .01 MFD. MYLAR CAPACITOR..........CM10NDE CM46 .01 MFD. MYLAR CAPACITOR..........CM10NDE CM10 .. 1. .022 MFD. MYLAR CAPACITOR.........CM22NDE CM12 .. 1. .0047 MFD. MYLAR CAPACITOR........CM4.7NDE CM45 .. 1. .056 MFD. MYLAR CAPACITOR.........CM56NDE CS15 .. 2. 1500 PFD. SILVER MICA CAPACITOR...CS1500PGE CS19 1500 PFD. SILVER MICA CAPACITOR...CS1500PGE CS16 .. 1. 20 PFD. SILVER MICA CAPACITOR.....CS20PGE CS47 .. 1. 500 PFD. SILVER MICA CAPACITOR....CS500PGE CS18 .. 1. 750 PFD. SILVER MICA CAPACITOR....CS750PGE DS3,4 .. 2. 70V SCHOTTKY BARRIER DIODE........DHMBD701L DL1-2 .. 2. BI-COLOR LED CLEAR LENS...........DL59C DS8 .. 1. 50V 1A POWER DIODE................DS1N4001 DS1 .. 1. 200 VOLT 1 AMP. POWER DIODE......DS1N4004 DS10 .. 1. 30 VOLT 3 AMP POWER DIODE.........DS1N5821 DZ5-6 .. 2. 3.9 VOLT 1 WATT ZENER DIODE......DZ1N4730A DZ7 .. 1. 5.1 VOLT 1 WATT ZENER DIODE......DZ1N4733A DZ2 .. 1. 10 VOLT ZENER DIODE...............DZ1N6000B PS1 .. 1. 7-30 IN +5 OUT 1.5 AMP SUPPLY.....EP7/30-5 PS2 .. 1. 5V-+/-5V ISOLATION DC/DC CONV.....EPHPR403 .. 1. SHOT PRO DIGITAL CARD-2 PCB.......GSPDC-2 .. 1. SHOT PRO LED CARD-1 PCB...........GSPLC-1 .. 1. 16-PIN DIP HEADER.................HA16P .. 4. 3M 3518-0000 POLARIZING KEY.......HPKEY-1 TP1-3 .. 5. TEST POINT PCB MINIATURE..........HTP-6 ACOM TEST POINT PCB MINIATURE..........HTP-6 DCOM TEST POINT PCB MINIATURE..........HTP-6 PS3 .. 1. 5V DC/DC CHARGE PUMP..............IC1044

06/06/97 07/14/2000 MRG

Page 2.2c


BILL OF MATERIALS

FCSPDC-2



IC5 .. 1. 5V RESET CHIP.....................IC1233 IC6 .. 1. MULTI-CHANNEL RS-232 DRVR/RCVR....IC233A OA11 .. 1. RAIL TO RAIL OP AMP...............IC822AN OA1 .. 1. RAIL TO RAIL FET INPUT OP AMP.....IC824 IC9 .. 1. 4096K NONVOLATILE SRAM............IR1250Y IC7 .. 1. SHOT PRO PROGAMMED H8.............IZSP IC8 .. 1. SHOT PRO PROGRAMMED PLD...........IZSP-PLD .. 1. 14-POSITION SOLDER DIP SOCKET.....JS14D .. 1. 16-POSITION SOLDER DIP SOCKET.....JS16D-1 .. 2. 20-POSITION SOLDER DIP SOCKET.....JS20D .. 1. 32 PIN LOW PROFILE DIP SOCKET.....JS32DL .. 1. 68 PIN SOCKET, SQUARE.............JS68S .. 5. 6-POSITION SOLDER DIP SOCKET......JS6D .. 1. 84 PIN SOCKET, SQUARE.............JS84S .. 5. 8 POSITION SOLDER DIP SOCKET......JS8D KM4 .. 1. 5 VOLT RELAY......................KM5TN KO6-7 .. 2. OPTICAL COUPLER...................KO4N32 KO2,3 .. 2. OPTICALLY COUPLED RELAY...........KO8060 KO1 .. 1. OPTICAL SOLID STATE RELAY.........KOC60-10 KO5 .. 1. 7.995392 MHZ OSCILLATOR...........KOS2523 OA10 .. 1. ELECTRONIC DIGITAL RHEOSTAT-10K...OA1669-10 OA3 .. 1. DUAL RAIL/RAIL OP AMP.............OA6142 OC4 .. 1. COMPARATOR........................OC311-1 IC2 .. 1. 5V PARALLEL INPUT 12 BIT DAC......OD8562 JA .. 2. 34-PIN STRAIGHT WRAP CONNECTOR....PP34W-4 JFP 34-PIN STRAIGHT WRAP CONNECTOR....PP34W-4 .. 1. .025 SQ.13 PIN TERMINAL STRIP.....PP36-13 .. 1. .025 SQ.25 PIN TERMINAL STRIP.....PP36-25 JS .. 1. 5 PIN 90 DEGREE PCB MOUNT.........PP5 Q1-3 .. 3. NPN GENERAL PURPOSE TRANSISTOR....Q2N3904 RA36-38 .. 3. 100K SIP RESISTOR PACK 10 PIN.....RA100KSIP1 RF3 .. 1. 1.21K 1/4W 1% RESISTOR............RF1.21KBC RF30 .. 6. 100K 1/4W 1% RESISTOR.............RF100KBC RF39-40 100K 1/4W 1% RESISTOR.............RF100KBC RF51 100K 1/4W 1% RESISTOR.............RF100KBC RF53 100K 1/4W 1% RESISTOR.............RF100KBC RF67 100K 1/4W 1% RESISTOR.............RF100KBC RF31 .. 1. 100 OHM 1/4W 1% RESISTOR..........RF100UBC RF2 .. 8. 10K 1/4W 1% RESISTOR..............RF10KBC RF13 10K 1/4W 1% RESISTOR..............RF10KBC RF22-23 10K 1/4W 1% RESISTOR..............RF10KBC RF25 10K 1/4W 1% RESISTOR..............RF10KBC

06/06/97 07/14/2000 MRG

Page 2.2c


BILL OF MATERIALS

FCSPDC-2



RF29 10K 1/4W 1% RESISTOR..............RF10KBC RF45 10K 1/4W 1% RESISTOR..............RF10KBC RF50 10K 1/4W 1% RESISTOR..............RF10KBC RF64 10K 1/4W 1% RESISTOR..............RF10KBC RF9 .. 1. 10 OHM 1/4W 1% RESISTOR...........RF10UBC RF55-57 .. 3. 11.5K 1/4W 1% RESISTOR............RF11.5KBC RF48 .. 1. 13K 1/4W 1% RESISTOR..............RF13KBC RF24 .. 1. 15.8K 1/4W 1% RESISTOR............RF15.8KBC RF17 .. 8. 1K 1/4W 1% RESISTOR...............RF1KBC RF33 1K 1/4W 1% RESISTOR...............RF1KBC RF46 1K 1/4W 1% RESISTOR...............RF1KBC RF49 1K 1/4W 1% RESISTOR...............RF1KBC RF54 1K 1/4W 1% RESISTOR...............RF1KBC RF59 1K 1/4W 1% RESISTOR...............RF1KBC RF62 1K 1/4W 1% RESISTOR...............RF1KBC RF70 1K 1/4W 1% RESISTOR...............RF1KBC RF21 .. 3. 2.49K 1/4W 1% RESISTOR............RF2.49KBC RF64 2.49K 1/4W 1% RESISTOR............RF2.49KBC RF66 2.49K 1/4W 1% RESISTOR............RF2.49KBC RF47 .. 1. 2.74K 1/4W 1% RESISTOR............RF2.74KBC RF4 .. 1. 200K 1/4W 1% RESISTOR.............RF200KBC RF12 .. 2. 27.4K 1/4W 1% RESISTOR............RF27.4KBC RF14 27.4K 1/4W 1% RESISTOR............RF27.4KBC RF11 .. 3. 2K 1/4W 1% RESISTOR...............RF2KBC RF26-27 2K 1/4W 1% RESISTOR...............RF2KBC RF35 .. 1. 30.1K 1/4W 1% RESISTOR............RF30.1KBC RF1 .. 1. 32.4K 1/4W 1% RESISTOR............RF32.4KBC RF41-44 .. 4. 365 OHM 1/4W 1% RESISTOR..........RF365UBC RF58 .. 3. 4.99K 1/4W 1% RESISTOR............RF4.99KBC RF63 4.99K 1/4W 1% RESISTOR............RF4.99KBC RF65 4.99K 1/4W 1% RESISTOR............RF4.99KBC RF6 .. 1. 40.2K 1/4W 1% RESISTOR............RF40.2KBC RF28 .. 1. 402K 1/4W 1% RESISTOR.............RF402KBC RF52 .. 1. 475K 1/4W 1% RESISTOR.............RF475KBC RF60-61 .. 2. 499 OHM 1/4W 1% RESISTOR..........RF499UBC RF20 .. 1. 5.1K 1/4W 5% RESISTOR.............RF5.1KBE RF8,10 .. 2. 510 OHM 1/4W 5% RESISTOR..........RF510UBE RF32 .. 1. 511K 1/4W 1% RESISTOR.............RF511KBC RF7 .. 1. 69.8 OHM 1/4W 1% RESISTOR.........RF69.8UBC RF68-69 .. 2. 698K 1/4W 1% RESISTOR.............RF698KBC RF15-16 .. 2. 9.53K 1/4W 1% RESISTOR............RF9.53KBC RP19 .. 1. 10K MULTI TURN TRIM POT...........RP10K-4

06/06/97 07/14/2000 MRG

Page 2.2c


BILL OF MATERIALS

FCSPDC-2



RF5 .. 1. SELECT RESISTOR 1%................RSEL1% TC1 .. 1. 10K TO 10K Z CT/CT TRANSFORMER....TC66 TC2 .. 1. DUAL SECONDARY AUDIO XFMR.........TC69 .. .100 24 GA. INSULATED BROWN WIRE.......W24GBR .. .100 24 GA. INSULATED GREEN WIRE.......W24GG .. .100 24 GA. INSULATED ORANGE WIRE......W24GO .. .100 24 GA. INSULATED RED WIRE.........W24GR .. .100 24 GA. INSULATED YELLOW WIRE......W24GY F1 .. 3. 7 AMP PICO FUSE...................X7PICO

06/06/97 07/14/2000 MRG

Page 3.1b


BILL OF MATERIALS

WSPPFP

SHOT PRO PFP CABLE


.. 1. #4 SOLDER LUG 7/8 LONG..........HS14104 PFP .. 1. 34-SOCKET CABLE CONNECTOR.........JC34F-2 .. 1. 4 CONTACT CRIMP CONNECTOR.........JC4-1 .. 4. 22-30 AWG CRIMP CONNECTOR.........P08-65 JF .. 1. 32-PIN EMI CHASSIS CONNECTOR......PP32 .. .750 22 GA. INSULATED BLACK WIRE.......W22GB .. .750 22 GA. INSULATED RED WIRE.........W22GR .. .750 34-CONDUCTOR COLOR FLAT CABLE.....W3302/34

10/21/96 10/26/98 MRG

Page 3.1d


BILL OF MATERIALS

WSPPFPG

SHOT PRO PFP CABLE GPS READY


.. 1. #4 SOLDER LUG 7/8 LONG..........HS14104 PFP .. 1. 34-SOCKET CABLE CONNECTOR.........JC34F-2 PF-UH .. 1. 4 CONTACT CRIMP CONNECTOR.........JC4-1 PGPS .. 1. 5 CONTACT CRIMP CONNECTOR.........JC5-1 .. 9. 22-30 AWG CRIMP CONNECTOR.........P08-65 JF .. 1. 32-PIN EMI CHASSIS CONNECTOR......PP32 .. 1.750 22 GA. INSULATED BLACK WIRE.......W22GB .. 1. 22 GA. INSULATED BLUE WIRE........W22GBL .. 1. 22 GA INSULATED GREEN WIRE........W22GG .. 1.750 22 GA. INSULATED RED WIRE.........W22GR .. 1. 22 GA. INSULATED WHITE WIRE.......W22GW .. .750 34-CONDUCTOR COLOR FLAT CABLE.....W3302/34

09/04/98 10/26/98 KJG


Page 1 of 1

BILL OF MATERIALS

WSPPK

SHOT PRO PK CABLE


.. 14. 3M 3435-0000 KEYING PLUG..........HPKEY .. 2. 34-SOCKET CABLE CONNECTOR.........JC34F-2 .. .500 34-CONDUCTOR COLOR FLAT CABLE.....W3302/34

10/21/96 MRG


Page 1 of 1

BILL OF MATERIALS

WSPPD

SHOT PRO PD CABLE


.. 8. 3M 3435-0000 KEYING PLUG..........HPKEY .. 2. 50 SOCKET CABLE CONNECTOR.........JC50F-2 .. .500 50-CONDUCTOR COLOR FLAT CABLE.....W3302/50

10/21/96 MRG


Page 1 of 1

BILL OF MATERIALS

WSPPA

SHOT PRO PA CABLES


.. 2. 34-SOCKET CABLE CONNECTOR.........JC34F-2 .. .250 34-CONDUCTOR COLOR FLAT CABLE.....W3302/34

10/21/96 MRG

Page 3.5b


BILL OF MATERIALS

WSP-E

SHOT PRO ENCODE CABLE


.. 48. 1/4 EXPANDO SHEATHING............ABH14 .. 1.250 1/16 SHRINK TUBING................ASHRINK116 .. .500 1/4 SHRINK TUBING.................ASHRINK14 .. 1.250 1/8 SHRINK TUBING................ASHRINK18 .. 1. 3/16 SHRINK TUBING...............ASHRINK316 .. 1. 3/16 RED SHRINK TUBING............ASHRINK316R .. .250 3/4 SHRINK TUBING.................ASHRINK34 .. 2. 9 DIN CONNECTOR CLAMP.............HRCSR-9 .. 1. 32-SOCKET CABLE CONNECTOR.........JC32SR .. 1. 5-SOCKET CABLE CONNECTOR..........JM6E5S .. 2. 9 SOCKET D CONNECTOR..............PC9S .. 1. .312 CONNECTOR BOOT...............PCC .. 2. CONNECTOR BOOT....................PCC-1 .. .250 16 GA. INSULATED BLACK WIRE.......W16GB .. 24. 20 GA. INSULATED BLACK WIRE.......W20GB .. 24. 20 GA. INSULATED RED WIRE.........W20GR .. 48. 2 CONDUCTOR SHIELDED CABLE........W2254/2 .. 36. 22 GA. INSULATED BLACK WIRE.......W22GB .. 12. 22 GA. INSULATED BLUE WIRE........W22GBL .. 12. 22 GA. INSULATED GREEN WIRE.......W22GG .. 12. BELDEN 8524/1000 22GA GRAY........W22GGR .. 12. 22 GA. INSULATED ORANGE WIRE......W22GO .. 12. 22 GA. INSULATED RED WIRE.........W22GR .. 12. BELDEN 8524/1000 22GA. VIOLET.....W22GV .. 12. 22 GA. INSULATED WHITE WIRE.......W22GW .. 12. 22 GA. INSULATED YELLOW WIRE......W22GY .. 12. 1-CONDUCTOR #22 SHIELDED CABLE....WA2254 .. .500 10 FOOT BNC TO BNC COAX CABLE.....WRBNC-10 F1-2 .. 2. 71/2 AMP BLADE TYPE FUSE..........XB71/2 .. 2. BLADE TYPE INLINE FUSEHOLDER......XFB

11/26/96 10/18/2000 MRG

Page 3.6b


BILL OF MATERIALS

WSP-D

SHOT PRO DECODE CABLE


.. 12. 1/4 EXPANDO SHEATHING............ABH14 .. 1.250 1/16 SHRINK TUBING................ASHRINK116 .. .500 1/4 SHRINK TUBING.................ASHRINK14 .. 1.250 1/8 SHRINK TUBING................ASHRINK18 .. 1. 3/16 SHRINK TUBING...............ASHRINK316 .. 1. 3/16 RED SHRINK TUBING............ASHRINK316R .. .250 3/4 SHRINK TUBING.................ASHRINK34 .. 1. #16 SHELL ELBOW...................H10-35922 .. 1. CABLE CONNECTOR REDUCER #18-#16...H12897 .. 1. #16 SHELL CABLE CLAMP.............HM85049 .. 1. 32-SOCKET CABLE CONNECTOR.........JC32SR .. 1. 5-SOCKET CABLE CONNECTOR..........JM6E5S .. 1. CONNECTOR BOOT....................PCC-1 .. 1. KOOTER FEM CHASS CONN W/CABLE.....PKCM-B .. .500 2 CONTACT WEATHER TIGHT CONN......PP2 .. 6. 2-CONDUCTOR #28 SHIELDED CABLE....W1120 .. .250 16 GA. INSULATED BLACK WIRE.......W16GB .. 6. 20 GA. INSULATED BLACK WIRE.......W20GB .. 9. 20 GA. INSULATED RED WIRE.........W20GR .. 9. 22 GA. INSULATED BLACK WIRE.......W22GB .. 3. 22 GA. INSULATED BLUE WIRE........W22GBL .. 3. 22 GA. INSULATED BROWN WIRE.......W22GBR .. 3. 22 GA. INSULATED GREEN WIRE.......W22GG .. 3. BELDEN 8524/1000 22GA GRAY........W22GGR .. 6. 22 GA. INSULATED ORANGE WIRE......W22GO .. 3. BELDEN 8524/1000 22GA. VIOLET.....W22GV .. 3. 22 GA. INSULATED WHITE WIRE.......W22GW .. 3. 22 GA. INSULATED YELLOW WIRE......W22GY .. 3. 1-CONDUCTOR #22 SHIELDED CABLE....WA2254 F1-2 .. 2. 71/2 AMP BLADE TYPE FUSE..........XB71/2 .. 2. BLADE TYPE INLINE FUSEHOLDER......XFB

09/22/00 10/18/2000 MRG


Page 1 of 1

BILL OF MATERIALS

WSP-E/RC

SHOT PRO ENCODE CABLE ASSEMBLY


.. 1. RADIO INT. BOX TO RADIO CABLE.....WRIB-RC .. 1. SHOT PRO ENCODE CABLE.............WSP-E

12/20/96 KJG


Page 1 of 1

BILL OF MATERIALS

WSP-D/RC

SHOT PRO DECODE CABLE ASSEMBLY


.. 1. RADIO INT. BOX TO RADIO CABLE.....WRIB-RC .. 1. SHOT PRO DECODE CABLE.............WSP-D

12/20/96 KJG

PELTON COMPANY, INC. Page 3.9b

Page 1 of 1

BILL OF MATERIALS

WSPESYC

SHOT PRO ENCODER/SERCEL Y-CABLE


.. 4. 1/4 EXPANDO SHEATHING............ABH14 .. 1. RND. CABLE STRAIN RELIEF PLASTIC..HRCSR-25 .. 2. 9 DIN CONNECTOR CLAMP.............HRCSR-9 .. 2. D CONNECTOR MOUNTING SCREW .5.....HSD20418-5 .. 1. 25-PIN RECTANGULAR CONNECTOR......PC25P .. 2. 9 PIN D CONNECTOR.................PC9P .. 1. .312 CONNECTOR BOOT...............PCC .. 3. CONNECTOR BOOT....................PCC-1 .. 4. 22 GA. INSULATED BLACK WIRE.......W22GB .. 1. 22 GA INSULATED GREEN WIRE........W22GG .. 3. 22 GA. INSULATED WHITE WIRE.......W22GW

11/14/97 02/13/98 KJG

PELTON COMPANY, INC. Page 3.10b

Page 1 of 1

BILL OF MATERIALS

WRIB-RC

RADIO INT. BOX TO RADIO CABLE


.. 1. 1/2 EXPANDO SHEATHING............ABH12 .. 1. .312 CONNECTOR BOOT...............PCC .. 1. 5-PIN CABLE CONNECTOR.............PM1A5P .. 1. CONNECTOR CABLE CLAMP.............PSR .. 1. 22 GA. INSULATED BLACK WIRE.......W22GB .. 1. 22 GA. INSULATED BROWN WIRE.......W22GBR .. 1. 22 GA. INSULATED ORANGE WIRE......W22GO .. 1. 22 GA. INSULATED RED WIRE.........W22GR .. 1. 22 GA. INSULATED YELLOW WIRE......W22GY

8/14/90 JAB

Page 3.10b


BILL OF MATERIALS

WRIB-RC

RADIO INTERCONNECT CABLE


.. 1. 1/2 EXPANDO SHEATHING............ABH12 .. 1. .312 CONNECTOR BOOT...............PCC .. 1. 5-PIN CABLE CONNECTOR.............PM1A5P .. 1. CONNECTOR CABLE CLAMP.............PSR .. 1. 22 GA. INSULATED BLACK WIRE.......W22GB .. 1. 22 GA. INSULATED BROWN WIRE.......W22GBR .. 1. 22 GA. INSULATED ORANGE WIRE......W22GO .. 1. 22 GA. INSULATED RED WIRE.........W22GR .. 1. 22 GA. INSULATED YELLOW WIRE......W22GY

8/14/90 JAB

Page 4.1


BILL OF MATERIALS

FGSPHS

SHOT PRO HARDWARE SPARES


.. 1. LOCTITE #242......................AL242 .. 1. TORQUE-SEAL.......................ATS .. 10. GREY RUBBER PUSHBUTTON COVER......H40151GY .. 10. RED RUBBER PUSHBUTTON COVER.......H40151RD .. 4. SILICAGEL DESICANT PACK...........HD1022 .. 1. SHOT PRO HARDWARE SPARES CASE.....HESPHSC .. 4. SHOT PRO COVER GASKET.............HGSP .. 4. #2 INTERNAL LOCKWASHER............HILW2 .. 4. #4 INTERNAL LOCKWASHER............HILW4 .. 4. #8 INTERNAL LOCKWASHER............HILW8 .. 4. 8-32 KEP NUT 18-8.................HN832K .. 2. HEX HEAD BINDING POST RED.........HP0312 ..100. 10-32 HEX HEAD SS SCREW...........HS1034H .. 4. 4-40X3/16 BH SS SCREW............HS4316B .. 4. 8-32 X 13/16 M/F HEX SPACER.......HS4539 .. 1. SOUTHCO LATCH HOOK................HS522-52 .. 4. 8-32 X 1.5 M/F HEX SPACER.........HS8290 ..100. #10 SEALING WASHER NEOPRENE.......HWS10 .. 2. EMI PI SECTION FILTER 500WV.......OF050 .. 20. 71/2 AMP BLADE TYPE FUSE..........XB71/2 .. 1. SHOT PRO TOOL KIT.................XTSP

03/14/97 11/18/98 MRG

Page 4.2


BILL OF MATERIALS

FGSPA-2G

SHOT PRO ASSEMBLY GPS READY


.. 1. SHOT PRO UNIT-2 GPS READY.........FGSP-2G .. 1. SHOT PRO MOUNTING PLATE...........FGSPMP

09/25/98 10/02/98 KJG

Page 4.3


BILL OF MATERIALS

FGSP-2G

SHOT PRO UNIT-2 GPS READY


.. 1. SHOT PRO ANALOG CARD-2............FCSPAC-2 .. 1. SHOT PRO DIGITAL CARD-2...........FCSPDC-2 .. 1. SHOT PRO GPS MOUNTING ASSEMBLY....HASPGPSM .. 1. SILICAGEL DESICANT PACK...........HD1022 .. 1. SHOT PRO ENCL ASSEMBLY GPS READY..HSPEAG .. 1. SHOT PRO FRONT PANEL ASSEMBLY-2...HSPFPA-2

09/04/98 10/02/98 KJG

Page 4.4


BILL OF MATERIALS

HSPEAG

SHOT PRO ENCL ASSEMBLY GPS READY


.. 1. 40-010 SHOT PRO ENCL-2 GPS READY..HESP-2 .. 1. #18 PANEL MOUNT GASKET............HGASKET18 .. 4. #4 INTERNAL LOCKWASHER............HILW4 .. 3. 4-40 KEP NUT......................HN440K .. 1. 4-40 LOCK NUT/NYLON INSERT........HN440NL .. 4. .3 INCH RUBBER PADS/ADHESIVE......HR5027BK .. 20. 10-32 HEX HEAD SS SCREW...........HS1034H .. 1. 4-40X1/2 BH SS SCREW.............HS412B .. 3. 4-40X3/8 BH SS SCREW.............HS438B .. 20. #10 SEALING WASHER NEOPRENE.......HWS10 .. 1. SMA FEMALE-N FEMALE PANEL MOUNT...HXPE9252 .. 1. SHOT PRO PA CABLES................WSPPA .. 1. SHOT PRO PD CABLE.................WSPPD .. 1. SHOT PRO PFP CABLE GPS READY......WSPPFPG .. 1. SHOT PRO PK CABLE.................WSPPK

09/04/98 10/02/98 KJG

Page 4.5


BILL OF MATERIALS

WSPPFPG

SHOT PRO PFP CABLE GPS READY


.. 1. #4 SOLDER LUG 7/8 LONG..........HS14104 PFP .. 1. 34-SOCKET CABLE CONNECTOR.........JC34F-2 PF-UH .. 1. 4 CONTACT CRIMP CONNECTOR.........JC4-1 PGPS .. 1. 5 CONTACT CRIMP CONNECTOR.........JC5-1 .. 9. 22-30 AWG CRIMP CONNECTOR.........P08-65 JF .. 1. 32-PIN EMI CHASSIS CONNECTOR......PP32 .. 1.750 22 GA. INSULATED BLACK WIRE.......W22GB .. 1. 22 GA. INSULATED BLUE WIRE........W22GBL .. 1. 22 GA INSULATED GREEN WIRE........W22GG .. 1.750 22 GA. INSULATED RED WIRE.........W22GR .. 1. 22 GA. INSULATED WHITE WIRE.......W22GW .. .750 34-CONDUCTOR COLOR FLAT CABLE.....W3302/34

09/04/98 10/26/98 KJG

Page 4.6


BILL OF MATERIALS

YUSPG

SHOT PRO WITH DIFF. GPS UPGRADE


.. 1. SHOT PRO GPS READY UPGRADE........FGSPGRU .. 1. SHOT PRO SK8 GPS SYSTEM...........FSSPSK8

10/02/98 KJG

Page 4.7


BILL OF MATERIALS

YUSPG1

SHOT PRO W/SUB-METER GPS UPGRADE


.. 1. SHOT PRO GPS READY UPGRADE........FGSPGRU .. 1. SHOT PRO DSM GPS SYSTEM...........FSSPDSM

10/02/98 KJG

Page 4.8


BILL OF MATERIALS

FGSPDRU

SHOT PRO DSM READY UPGRADE


.. 1. SHOT PRO DSM MOUNTING CARD-1......FCSPDSM-1 .. 1. SHOT PRO GPS MOUNTING ASSEMBLY....HASPGPSM .. 1. 40-010 SHOT PRO ENCL-2 GPS READY..HESP-2 .. 2. 8-32 KEP NUT 18-8.................HN832K .. 2. 8-32X1/2 BH SS SCREW.............HS812B .. 1. 40-013 SHOT PRO BACKPACK DSM......HSPBPDAA ANTENNA ANGLE .. 1. SMA FEMALE-N FEMALE PANEL MOUNT...HXPE9252 .. 1. SHOT PRO JF CABLE MODIFICATION....WSPJF-M

02/03/2000 06/09/2000 KJG

Page 4.9


BILL OF MATERIALS

WSPJF-M

SHOT PRO JF CABLE MODIFICATION


PGPS .. 1. 5 CONTACT CRIMP CONNECTOR.........JC5-1 .. 5. 22-30 AWG CRIMP CONNECTOR.........P08-65 .. 1. 22 GA. INSULATED BLACK WIRE.......W22GB .. 1. 22 GA. INSULATED BLUE WIRE........W22GBL .. 1. 22 GA INSULATED GREEN WIRE........W22GG .. 1. 22 GA. INSULATED RED WIRE.........W22GR .. 1. 22 GA. INSULATED WHITE WIRE.......W22GW

10/02/98 KJG

Page 4.10


BILL OF MATERIALS

FSSP-2G

SHOT PRO SYSTEM WITH DIFF. GPS


.. 1. SHOT PRO MANUAL...................AMSP .. 3. 12 VOLT BATTERY WITH CONNECTOR....FGBATT12V .. 1. 12V BATTERY CHARGER & CONNECTOR...FGBC12V .. 1. VHF FM RADIO......................FGRADIO-1 .. 1. SHOT PRO ASSEMBLY GPS READY.......FGSPA-2G .. 1. SHOT PRO SK8 GPS SYSTEM...........FSSPSK8 .. 1. SHOT PRO BACKPACK WITH COVER......HSPBA .. 1. SHOT PRO DECODE CABLE ASSEMBLY....WSP-D/RC

09/25/98 10/26/2000 KJG

Page 4.11


BILL OF MATERIALS

FSSP-2G1

SHOT PRO SYSTEM W/SUBMETER GPS


.. 1. SHOT PRO MANUAL...................AMSP .. 3. 12 VOLT BATTERY WITH CONNECTOR....FGBATT12V .. 1. 12V BATTERY CHARGER & CONNECTOR...FGBC12V .. 1. VHF FM RADIO......................FGRADIO-1 .. 1. SHOT PRO ASSEMBLY DSM READY.......FGSPA-2DSM .. 1. SHOT PRO DSM GPS SYSTEM...........FSSPDSM .. 1. SHOT PRO BACKPACK WITH COVER......HSPBA .. 1. SHOT PRO DECODE CABLE ASSEMBLY....WSP-D/RC

10/02/98 10/26/2000 KJG

Page 4.12


BILL OF MATERIALS

FSSPGPS-SM

SHOT PRO W/EXT SUB-METER GPS


.. 1. PELTON SUB-METER GPS MANUAL.......AMPSMGPS .. 1. SUB-METER GPS RECEIVER............FGGPS-SM .. 1. GPS ANTENNA AND TWO FOOT CABLE....FGGPSANT-2 .. 1. TRIMBLE DSM MANUAL AND SOFTWARE...FPTDSM .. 1. SHOT PRO DECODE/GPS CABLE SET.....WSP-D/RC/GPS

05/04/98 12/16/99 KJG

Page 4.13


BILL OF MATERIALS

FSSPSK8

SHOT PRO SK8 GPS SYSTEM


.. 1. TRIMBLE SK-8 RECEIVER.............EFCTSK-8 .. 1. SHOT PRO SK8 MOUNTING CARD-1......FCSPSK8-1 .. 1. SK8 ANTENNA & MOUNTING HARDWARE...HXSK8A .. 1. 6 INCH SMB TO N MALE CABLE........W33298

09/29/98 KJG

Page 4.14

Pelton Company, Inc. Page 1 of 1 BILL OF MATERIALS FSSPDSM SHOT PRO DSM GPS SYSTEM QTY DESCRIPTION STOCK # .. 1. TRIMBLE EUROCARD 12 CH DSM II.....EFCTEDSMII .. 2. 8-32 KEP NUT 18-8.................HN832K .. 2. 8-32X1/2 BH SS SCREW.............HS812B .. 1. 40-013 SHOT PRO BACKPACK DSM......HSPBPDAA ANTENNA ANGLE .. 1. SMA 90D MALE -SMA 90D MALE 6".....HX3876-6 .. 1. GPS ANTENNA.......................HXAT575 .. 1. N MALE TO TNC RG142 2 FOOT CABLE..W3652-24 09/25/98 06/09/2000 KJG

Page 4.15c


BILL OF MATERIALS

FCSPDSM-1

SHOT PRO DSM MOUNTING CARD-1


.. 1. SHOT PRO GPS MNTNG CARD-1A PCB....GSPGMC-2 .. 2. 3M 3435-0000 KEYING PLUG..........HPKEY .. 4. 3M 3518-0000 POLARIZING KEY.......HPKEY-1 .. 1. SQUARE PIN SHORTING CLIP..........HX999 .. 2. 34-SOCKET CABLE CONNECTOR.........JC34F-2 JC1 .. 1. 34 PIN 90 SHORT EJECTOR SOLDER....PP34-6 JP1 .. 2. 4 PIN TERMINAL STRIP..............PP36-4 JGP 4 PIN TERMINAL STRIP..............PP36-4 JGPS .. 1. 5 PIN 90 DEGREE PCB MOUNT.........PP5 .. .300 34-CONDUCTOR COLOR FLAT CABLE.....W3302/34

09/25/98 07/17/2000 KJG

Page 4.16


BILL OF MATERIALS

FCSPSK8-1

SHOT PRO SK8 MOUNTING CARD-1


B1 .. 1. LITHIUM 3.6 VOLT 1/2 AA...........BL3.6 CD1 .. 1. 0.1 MFD DIP CAPACITOR.............CD.1SW .. 1. SHOT PRO GPS MNTNG CARD-1A PCB....GSPGMC-1A .. 2. 3M 3435-0000 KEYING PLUG..........HPKEY .. 1. 3M 3518-0000 POLARIZING KEY.......HPKEY-1 .. 1. SQUARE PIN SHORTING CLIP..........HX999 IC1 .. 1. MULTI-CHANNEL RS-232 DRVR/RCVR....IC233A .. 2. 10-SOCKET CABLE CONNECTOR.........JC10F .. 1. 20-POSITION SOLDER DIP SOCKET.....JS20D JC2 .. 1. 10 PIN 90 DEGREE PCB HEADER.......PP10-1 JP1 .. 2. 4 PIN TERMINAL STRIP..............PP36-4 JGP 4 PIN TERMINAL STRIP..............PP36-4 JGPS .. 1. 5 PIN 90 DEGREE PCB MOUNT.........PP5 .. .500 16 CONDUCTOR COLOR FLAT CABLE.....W3302/16

09/25/98 02/22/2000 KJG

Page 4.17


BILL OF MATERIALS

HASPGPSM

SHOT PRO GPS MOUNTING ASSEMBLY


.. 4. #4 INTERNAL LOCKWASHER............HILW4 .. 4. 4-40 HEX NUT......................HN440 .. 4. 4-40X1/2 BH SS SCREW.............HS412B .. 6. 8-32 X 1/2 " M/F HEX SPACER.......HS8282 .. 4. SPACER 1/4 RND .25L 4-40THREAD...HS8321

09/04/98 10/27/98 KJG

Page 4.18


BILL OF MATERIALS

HXSK8A

SK8 ANTENNA & MOUNTING HARDWARE


.. 2. 8-32 KEP NUT 18-8.................HN832K .. 2. 8-32X3/8 FH SS SCREW.............HS838F .. 1. 40-012 SK8 MAG MOUNT ANT ANGLE....HSK8AA .. 1. TRIMBLE MAG MOUNT SK8 ANTENNA.....HX28367 .. 1. N MALE TO SMB JACK ADAPTER........HXPE9313

09/30/98 KJG

Page 4.19a


BILL OF MATERIALS

WSP-D/RC/GPS

SHOT PRO DECODE/GPS CABLE SET


.. 1. RADIO INTERCONNECT CABLE..........WRIB-RC .. 1. SHOT PRO DECODE/GPS CABLE.........WSP-D/GPS

05/04/98 KJG

Page 4.20


BILL OF MATERIALS

WSP-D/GPS

SHOT PRO DECODE/GPS CABLE


.. 12. 1/4 EXPANDO SHEATHING............ABH14 .. 1.250 1/8 SHRINK TUBING................ASHRINK18 .. 1. #16 SHELL ELBOW...................H10-35922 .. 1. CABLE CONNECTOR REDUCER #18-#16...H12897 .. 1. #16 SHELL CABLE CLAMP.............HM85049 .. 1. 9 DIN CONNECTOR CLAMP.............HRCSR-9 .. 1. LEMO DUST CAP 0B CABLE............HW0BC .. 1. 32-SOCKET CABLE CONNECTOR.........JC32SR .. 1. 5-SOCKET CABLE CONNECTOR..........JM6E5S .. 1. 9 PIN D CONNECTOR.................PC9P .. 1. .312 CONNECTOR BOOT...............PCC .. 1. CONNECTOR BOOT....................PCC-1 .. 1. 2 PIN PLUG LEMO 0B 4mm COLLET.....PCL0B2-4 .. 1. KOOTER FEM CHASS CONN W/CABLE.....PKCM-B .. .500 2 CONTACT WEATHER TIGHT CONN......PP2 .. 1. STRAIN RELIEF LEMO 0B 4mm.........PSL0B4 .. 6. 20 GA. INSULATED BLACK WIRE.......W20GB .. 9. 20 GA. INSULATED RED WIRE.........W20GR .. 3. 2 CONDUCTOR SHIELDED CABLE........W2254/2 .. 9. 22 GA. INSULATED BLACK WIRE.......W22GB .. 3. 22 GA. INSULATED BLUE WIRE........W22GBL .. 3. 22 GA. INSULATED BROWN WIRE.......W22GBR .. 3. 22 GA INSULATED GREEN WIRE........W22GG .. 3. BELDEN 8524/1000 22GA GRAY........W22GGR .. 3. 22 GA. INSULATED ORANGE WIRE......W22GO .. 3. BELDEN 8524/1000 22GA. VIOLET.....W22GV .. 3. 22 GA. INSULATED WHITE WIRE.......W22GW .. 3. 22 GA. INSULATED YELLOW WIRE......W22GY .. 3. 1-CONDUCTOR #22 SHIELDED CABLE....WA2254 .. 2. 2-CONDUCTER LEADER WIRE...........WF-TP-165 F1-2 .. 2. 71/2 AMP BLADE TYPE FUSE..........XB71/2 .. 2. BLADE TYPE INLINE FUSEHOLDER......XFB

05/04/98 KJG

Page 4.21


BILL OF MATERIALS

WSPGPSTCS

SHOT PRO GPS TEST CABLE SET


.. 1. FEMALE-FEMALE 9D CABLE............W9DF-F .. 1. MALE-FEMALE 9D CABLE..............W9DM-F .. 1. SHOT PRO GPS PROGRAMMING CABLE....WSPGPSP

02/09/99 10/12/2000 KJG

Page 4.22b


BILL OF MATERIALS

WSPGPSP

SHOT PRO GPS PROGRAMMING CABLE


.. 6. 1/4 EXPANDO SHEATHING............ABH14 .. 1. 9 DIN CONNECTOR CLAMP.............HRCSR-9 .. 1. 4 CONTACT CRIMP CONNECTOR.........JC4-1 .. 3. 22-30 AWG CRIMP CONNECTOR.........P08-65 .. 1. 9 SOCKET D CONNECTOR..............PC9S .. 1. CONNECTOR BOOT....................PCC-1 .. 6. 24 GA INSULATED GREEN WIRE........W24GG .. 6. 24 GA. INSULATED ORANGE WIRE......W24GO .. 6. 24 GA. INSULATED RED WIRE.........W24GR

02/09/99 KJG

Page 4.23b


BILL OF MATERIALS

WSPDR

SHOT PRO DUAL RADIO MODIFICATION


JDR .. 1. 6 SOCKET LOCKING CONNCTOR.........JC6SL .. 6. 22-24 AWG CRIMP SOCKET............JI1C PDR .. 1. 6 PIN LOCKING CONNECTOR...........P6SL .. 6. 22-24 AWG CRIMP PIN...............PI1C .. 1. 4PST MOMENTARY PUSHBUTTON BLK.....SP4SM .. 1. 24 GA. INSULATED BLUE WIRE........W24GBL .. 1. 24 GA. INSULATED BROWN WIRE.......W24GBR .. 1. 24 GA INSULATED GREEN WIRE........W24GG .. 1. 24 GA. INSULATED ORANGE WIRE......W24GO .. 1. 24 GA. INSULATED RED WIRE.........W24GR .. 1. 24 GA. INSULATED YELLOW WIRE......W24GY

01/22/99 02/09/99 KJG

Page 4.24a


BILL OF MATERIALS

FGRCC

RADIO COMMUNICATION MODULE AND CABLE


.. 1. RADIO COMMUNICATION MODULE........FORCC .. 1. RADIO COMMUNICATION MODULE CABLE..WRCC

05/28/99 KJG

Page 2.24d


BILL OF MATERIALS

FCRCC-1

RADIO COMMUNICATION CARD -1


C24 .. 1. .0018 MFD CERAMIC 5% 0805.........C1.8NE0805 C19 .. 1. .022 MFD CERAMIC 5% 1825..........C22NE1825 C21 .. 1. 22 PFD CERAMIC 5% 0805............C22PE0805 C23 .. 2. 680 PFD CERAMIC 5% 0805...........C680PE0805 C31 680 PFD CERAMIC 5% 0805...........C680PE0805 C3-7 .. 19. .1 MFD 0805 CAPACITOR S.M.........CD.1SM C10-15 .1 MFD 0805 CAPACITOR S.M.........CD.1SM C22 .1 MFD 0805 CAPACITOR S.M.........CD.1SM C25-30 .1 MFD 0805 CAPACITOR S.M.........CD.1SM C32 .1 MFD 0805 CAPACITOR S.M.........CD.1SM CE1-2 .. 6. 10 MFD TANTALUM 20% 7343..........CE10MH7343 CE8-9 10 MFD TANTALUM 20% 7343..........CE10MH7343 CE16-17 10 MFD TANTALUM 20% 7343..........CE10MH7343 CE18 .. 1. 6.8 MFD TANTALUM 20% 7343.........CE6.8MH7343 DL3-5 .. 3. ORN/GRN DUAL LED SURFACE MOUNT....DL907HK DS1 .. 1. 1 AMP SURFACE MOUNT BRIDGE........DS00FS DS9 .. 2. 1A GLASS PASSIVATED RECTIFIER.....DS1B/BB DS10 1A GLASS PASSIVATED RECTIFIER.....DS1B/BB DZ2 .. 1. DUAL ZENER DIODES SOT-23..........DZ23C10 DZ7 .. 2. 350MW ZENER SOT-23................DZBZX84C5V6 DZ8 350MW ZENER SOT-23................DZBZX84C5V6 PS2 .. 1. 5V TO +/-15V CONVERTER SOIC.......EP0515TM PS1 .. 1. 9-36 IN +5 OUT 1.25x.8x.5H........EP24-5-1 .. 1. RADIO COMMUNICATION CARD-1 PCB....GRCC-1 .. 2. #4 INTERNAL LOCKWASHER............HILW4 .. 4. .25 OD.X.115 ID. NYLON WASHER.....HMPNW0432 .. 4. 4-40 KEP NUT......................HN440K .. 2. 4-40X1/2 BH SS SCREW.............HS412B .. 2. 4-40X1/4 BH SS SCREW.............HS414B .. 2. SPACER 3/16 HEX .25 L 4-40THRD...HS9147 TP1-2 .. 2. TEST POINT PCB MINIATURE..........HTP-6 IC3 .. 1. 5 VOLT RESET SOT-223..............IC1233DZ-15 IC4 .. 1. +5V RS-232 DRVRS/RCVRS SSOP.......IC208ARS IC1 .. 1. 256 BIT 1 WIRE EEPROM TSOC........IC2430AP IC6 .. 1. VOLTAGE COMPARATOR MO8A...........IC311M IC5 .. 1. QUAD OP AMP SOIC..................IC404U IC8 .. 1. HEX INVERTER WITH OPEN DRAIN SM...IC74AC05SC IC2 .. 2. QUAD 2-INPUT OR GATE SM...........IC74HC32AD IC9 QUAD 2-INPUT OR GATE SM...........IC74HC32AD IC7 .. 1. UNIVERSAL ACTIVE FILTER SOL-16....ICUAF42U .. 1. MODEM H8S PROGRAMMED H8S..........IZMH8SC KO4 .. 1. DUAL LOGIC GATE OPTOCOUPLER.......KO2232

05/21/99 12/06/99 KJG

Page 2.24d


BILL OF MATERIALS

FCRCC-1

RADIO COMMUNICATION CARD -1


KO5 .. 2. OPTICAL COUPLER...................KO4N32 KO6 OPTICAL COUPLER...................KO4N32 KO1 .. 1. 20 MHz OSCILLATOR.................KO740020 KO3 .. 1. OPTICAL SOLID STATE RELAY.........KOC60-10 KS2 .. 1. 2 CHANNEL PHOTO COUPLE RELAY SM...KS224NA JC .. 1. FILTERED 25 PIN D-SUB 90 DEGREE...PC25PF-90 JDB .. 1. 4 PIN TERMINAL STRIP..............PP36-4 JA, JB .. 2. 60 PIN 50/50 SMT HEADER .250 H....PP60-S RA4 .. 1. 10K RESISTOR ARRAY SMT............RA10K-SM RA1-3 .. 3. 22K RESISTOR ARRAY SMT............RA22K-SM RF23 .. 1. 100K 1/10W 1% RESISTOR 0805.......RF100KC0805 RF5 .. 2. 100 OHM 1/1OW 1% RESISTOR 0805....RF100UC0805 RF24 100 OHM 1/1OW 1% RESISTOR 0805....RF100UC0805 RF22 .. 4. 10K 1/10W 1% RESISTOR 0805........RF10KC0805 RF41 10K 1/10W 1% RESISTOR 0805........RF10KC0805 RF43 10K 1/10W 1% RESISTOR 0805........RF10KC0805 RF47 10K 1/10W 1% RESISTOR 0805........RF10KC0805 RF26 .. 3. 1K 1/8W 1% RESISTOR 1206..........RF1KC1206 RF42 1K 1/8W 1% RESISTOR 1206..........RF1KC1206 RF44 1K 1/8W 1% RESISTOR 1206..........RF1KC1206 RF28-33 .. 6. 215 OHM 1/8W 1% RESISTOR 1206.....RF215UC1206 RF27 .. 1. 274K 1/10W 1% RESISTOR 0805.......RF274KC0805 RF20 .. 1. 2K 1/8W 1% RESISTOR 1206..........RF2KC1206 RF21 .. 1. 402K 1/10W 1% RESISTOR 0805.......RF402KC0805 RF9 .. 5. 402 OHM 1/8W 1% RESISTOR 1206.....RF402UC1206 RF37-40 402 OHM 1/8W 1% RESISTOR 1206.....RF402UC1206 RF13-14 .. 2. 49.9K 1/10W 1% RESISTOR 0805......RF49.9KC0805 RF18 .. 1. 5.49K 1/10W 1% RESISTOR 0805......RF5.49KC0805 RF25 .. 1. 511K 1/10W 1% RESISTOR 0805.......RF511KC0805 RF45 .. 2. 698K 1/8W 1% RESISTOR 1206........RF698KC1206 RF46 698K 1/8W 1% RESISTOR 1206........RF698KC1206 RF34-36 .. 3. 768 OHM 1/8W 1% RESISTOR 1206.....RF768UC1206 RP8 .. 1. 10K MULTI TURN TRIM POT...........RP10K-4 RF17 .. 2. SELECT RESISTOR 1%................RSEL1% RF19 SELECT RESISTOR 1%................RSEL1% SD1 .. 1. 8PST DIP-SWITCH...................SD8SA TC1 .. 1. 10K TO 10K Z CT/CT TRANSFORMER....TC66 TC2 .. 1. DUAL SECONDARY AUDIO XFMR.........TC69

05/21/99 12/06/99 KJG

Page 2.24e


BILL OF MATERIALS

FGRCCRC

RCC RADIO CONTROL


.. 1. RCC RADIO CONTROL ENCLOSURE.......HERCCRC J1-2 .. 2. BNC CHASSIS CONNECTOR (ISOLATED)..JPBNC ST1 .. 1. SPDT TOGGLE SWITCH................STSS .. .250 22 GA. INSULATED BLACK WIRE.......W22GB .. .250 22 GA. INSULATED BROWN WIRE.......W22GBR .. .250 22 GA. INSULATED RED WIRE.........W22GR

11/10/99 KJG

Page 2.24f


BILL OF MATERIALS

WRCC

RADIO COMMUNICATION MODULE CABLE


.. 30. 1/4 EXPANDO SHEATHING............ABH14 .. 1. RND. CABLE STRAIN RELIEF PLASTIC..HRCSR-25 .. 2. 9 DIN CONNECTOR CLAMP.............HRCSR-9 .. 2. ALLIGATOR CLIP SOLDER TYPE.......HS300 .. 1. ALLIGATOR CLIP BOOT BLACK........HS331B .. 1. ALLIGATOR CLIP BOOT RED..........HS331R .. 1. 5-SOCKET CABLE CONNECTOR..........JM6E5S .. 1. 25-SOCKET RECTANGULAR CONNECTOR...PC25S .. 1. 9 PIN D CONNECTOR.................PC9P .. 1. 9 SOCKET D CONNECTOR..............PC9S .. 2. .312 CONNECTOR BOOT...............PCC .. 4. CONNECTOR BOOT....................PCC-1 .. 1. 5-PIN CABLE CONNECTOR.............PM1A5P .. 1. CONNECTOR CABLE CLAMP.............PSR .. 10. 2-CONDUCTOR #28 SHIELDED CABLE....W1120 .. 8. 20 GA. INSULATED BLACK WIRE.......W20GB .. 8. 20 GA. INSULATED RED WIRE.........W20GR .. 10. 22 GA. INSULATED BLACK WIRE.......W22GB .. 6. 22 GA. INSULATED BROWN WIRE.......W22GBR .. 6. 22 GA. INSULATED GREEN WIRE.......W22GG .. 12. 22 GA. INSULATED ORANGE WIRE......W22GO .. 16. 22 GA. INSULATED YELLOW WIRE......W22GY .. 10. 1-CONDUCTOR #22 SHIELDED CABLE....WA2254 .. .500 10 FOOT BNC TO BNC COAX CABLE.....WRBNC-10 F1 .. 1. 1 AMP AGC FUSE NORMAL BLOW........XAGC1 .. 1. FUSE HOLDER IN LINE WATERPROOF....XFHIL-W

06/03/99 11/15/99 KJG

Page 4.25


BILL OF MATERIALS

FSSPEGPS-1

SHOT PRO DSM REFERENCE STATION USING SINGLE RADIO FOR RTCM


.. 1. SUBMETER GPS REF STA RECEIVER.....FGGPS-SMR .. 1. RADIO COMMUNICATION MODULE........FGRCC AND CABLE .. 1. RCC RADIO CONTROL SWITCH BOX......FGRCCRC .. 1. GPS ANTENNA.......................HXAT575 .. 1. GPS ANTENNA CABLES................WGPSANT

10/27/99 10/12/2000 KJG

Page 4.26a

Pelton Company, Inc. Page 1 of 1 BILL OF MATERIALS FSUS UPHOLE SIMULATOR SYSTEM QTY DESCRIPTION STOCK # .. 1. UPHOLE SIMULATOR UNIT.............FGUS 12/10/96 01/11/2001 MRG

Page 4.26b

Pelton Company, Inc. Page 1 of 1 BILL OF MATERIALS FGUS UPHOLE SIMULATOR UNIT QTY DESCRIPTION STOCK # .. 1. 9 VOLT ALKALINE BATTERY...........BA9V .. 1. UPHOLE SIMULATOR CARD-1...........FCUSC-1 .. 1. 9 VOLT BATTERY HOLDER.............H9VBATTH .. 2. BANANA PLUG, RED..................HBPR .. 1. 40-005 UPHOLE SIMULATOR ENCL......HEUS .. 2. ALLIGATOR CLIP SOLDER TYPE.......HS300 .. 1. ALLIGATOR CLIP BOOT BLACK........HS331B .. 1. ALLIGATOR CLIP BOOT RED..........HS331R .. 2. 1/8 THICK 5/8 DIA. STRAIN RELIEF..HSR1210 .. 1. UPHOLE SIMULATOR F.P. ASSEMBLY....HUSFPA .. 3. 2 CONDUCTOR SHIELDED CABLE........W2254/2 .. 3. 2-CONDUCTER LEADER WIRE...........WF-TP-165 12/10/96 02/07/97 MRG

Page 4.26c

Pelton Company, Inc. Page 1 of 1 BILL OF MATERIALS HUSFPA UPHOLE SIMULATOR F.P. ASSEMBLY QTY DESCRIPTION STOCK # DL1 .. 1. SUPER BRIGHT LED RED..............DL53SR .. 1. LED HOLDER........................HLED-2 .. 1. UPHOLE SIMULATOR FP/OVERLAY.......HUSFP/O JA .. 1. 26-SOCKET CABLE CONNECTOR.........JC26F-3 SP1 .. 1. SPDT BLACK PUSHBUTTON SWITCH......SPSD-2 ST4 .. 2. DPDT CENTER OFF TOGGLE SWITCH.....STDDC-1 ST5 DPDT CENTER OFF TOGGLE SWITCH.....STDDC-1 ST3 .. 1. SPDT TOGGLE SWITCH................STSS ST2 .. 1. SPDT LOCKING TOGGLE SWITCH........STSSL .. 1. 26-CONDUCTOR COLOR FLAT CABLE.....W3302/26 01/08/97 02/09/99 MRG

Page 4.26f

Pelton Company, Inc. Page 1 of 1 BILL OF MATERIALS FCUSC-1 UPHOLE SIMULATOR CARD-1 QTY DESCRIPTION STOCK # CD7 .. 4. .01 MFD DISC CERAMIC CAPACITOR....CD.01MHH CD10-12 .01 MFD DISC CERAMIC CAPACITOR....CD.01MHH CD1-6 .. 6. 0.1 MFD DIP CAPACITOR.............CD.1SW CE18 .. 1. 10MFD 35V TANTALUM CAPACITOR......CE10MCF-1 CM9 .. 1. .056 MFD. MYLAR CAPACITOR.........CM56NDE CS14 .. 1. 100 PFD. SILVER MICA CAPACITOR....CS100PGE DS3-8 .. 6. GEN. PURPOSE SIGNAL DIODE.........DS1N457A DZ1-2 .. 2. 18 VOLT 1 WATT ZENER DIODE.......DZ1N4746A .. 1. UPHOLE SIMULATOR CARD-1A PCB......GUSC-1A IC1 .. 1. QUAD 2-INPUT NAND GATE............IC4011 IC2-3 .. 2. DUAL D FLIP-FLOP................IC4013 IC6 .. 1. 14-BIT BINARY COUNTER.............IC4020 IC4 .. 1. TRIPLE 3-INPUT NAND GATE..........IC4023 IC5 .. 1. 7-STAGE RIPPLE COUNTER............IC4024 .. 5. 14-POSITION SOLDER DIP SOCKET.....JS14D .. 1. 16-POSITION SOLDER DIP SOCKET.....JS16D-1 KD1 .. 1. 2.0474048 MHz .005% CRYSTAL.......KD2.047 JA .. 1. 26 PIN STRAIGHT PCB HEADER........PP26SH Q1 .. 1. NPN GENERAL PURPOSE TRANSISTOR....Q2N3904 Q2 .. 1. PNP SILICON TRANSISTOR............QMPS6518 RF1-2 .. 2. .5 OHM 5 WATT 500V 1%.............RF.5UGC RF4 .. 1. 1.02K 1/4W 1% RESISTOR............RF1.02KBC RF3 .. 2. 1.82K 1/4W 1% RESISTOR............RF1.82KBC RF6 1.82K 1/4W 1% RESISTOR............RF1.82KBC RF10 .. 1. 100K 1/4W 1% RESISTOR.............RF100KBC RF7 .. 2. 10K 1/4W 1% RESISTOR..............RF10KBC RF13 10K 1/4W 1% RESISTOR..............RF10KBC RF11 .. 1. 121K 1/4W 1% RESISTOR.............RF121KBC RF22 .. 1. 13.3K 1/4W 1% RESISTOR............RF13.3KBC RF8 .. 1. 2.21K 1/4W 1% RESISTOR............RF2.21KBC RF5 .. 1. 2.49K 1/4W 1% RESISTOR............RF2.49KBC RF14-16 .. 3. 20K 1/4W 1% RESISTOR..............RF20KBC RF21 .. 1. 243 OHM 1/4W 1% RESISTOR..........RF243UBC RF23 .. 1. 294 OHM 1/4W 1% RESISTOR..........RF294UBC RF19 .. 1. 2K 1/4W 1% RESISTOR...............RF2KBC RF17-18 .. 2. 7.32K 1/4W 1% RESISTOR............RF7.32KBC RF20 .. 1. 787 OHM 1/4W 1% RESISTOR..........RF787UBC RF12 .. 1. 86.6K 1/4W 1% RESISTOR............RF86.6KBC TC1 .. 1. 10K TO 10K Z CT/CT TRANSFORMER....TC66 12/10/96 01/05/01 MRG

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