iCE40 UltraLite™ Breakout Board User Guide
EB96 Version 1.1, March 2017
2
iCE40 UltraLite Breakout Board
IntroductionThank you for choosing the Lattice iCE40 UltraLite™ Breakout Board.
This guide describes how to begin using the iCE40 UltraLite Breakout Board, an easy-to-use platform for demon-strating the high-current LED drive capabilities of the iCE40 UltraLite FPGA. Along with the evaluation board and accessories, this kit includes the pre-loaded LED Driver Demo that demonstrates driving the RBG LEDs with a PWM circuit. In addition, most of the device’s I/O balls are accessible via one of the several header locations on the board, facilitating rapid prototyping of user functions.
The contents of this user’s guide include demo operation, top-level functional descriptions of the various portions of the evaluation board, descriptions of the on-board connectors, jumpers, a complete set of schematics and the bill of material for the iCE40 UltraLite Breakout Board.
Note: Static electricity can severely shorten the lifespan of electronic components. Be careful when handling the iCE40 UltraLite Breakout Board as to not damage it from ESD.
FeaturesThe iCE40 UltraLite Breakout Board includes:
• iCE40 UltraLite Breakout Board – The iCE40 UltraLite Breakout Board features the following on-board compo-nents and circuits:
– iCE40 UltraLite (iCE40UL1K-CM36A) device in a 36-ball WLCSP package. – Example of a board using this 0.35-pitch WLCSP package. – High-current LED output– Infrared transmit – iCE40 UltraLite Current Measurements– Standard USB cable for device programming – RoHS-compliant packaging and process
• Pre-loaded Demo – The kit includes a pre-loaded demo to control the onboard RGB LED in conjunction with a software run GUI.
• USB Connector Cable – A mini B USB port provides power, a programming interface and communication for the software RGB LED GUI to the iCE40 UltraLite SPI port.
3
iCE40 UltraLite Breakout Board
Figure 1 shows the top side of the iCE40 UltraLite Breakout Board indicating the specific features that are designed on the board.
Figure 1. iCE40 UltraLite Breakout Board (Top Side)
iCE40 UltraLite DeviceThe board features an iCE40UL1K FPGA with a 1.2 V core supply. The device is packaged in a 36-ball WLCSP. For a complete description of this device, see DS1050, iCE40 UltraLite Family Data Sheet.
Software RequirementsYou should install the following software before you begin developing designs for the board:
• iCEcube2 2014.04 (or higher)
• Diamond Programmer 3.3 (or higher)
These software are available at the Lattice website Design Software & IP page. Make sure you log in to www.lat-ticesemi.com, otherwise these software downloads will not be visible. It is also recommended to download the RGB LED software GUI which interfaces with the iCE40 UltraLite Breakout Board. This GUI allows you to control the RGB LED for color, brightness, blinking and breathing. Download the PC or MAC version of the GUI at www.latticesemi.com.
iCE40UL1K-CM36A (U1)
Barcode LED, Red (D8)
Power LED, Green (D9)
FTDI USB to UART/FIFO IC (U7)
Torch LED (D7)
Infra-Red LED (D6)
USB Mini-BSocket (J17)
RGB LED (U2)
4
iCE40 UltraLite Breakout Board
Demonstration Design JumpersLattice provides the RGB LED Driver Demo design programmed in the board. The RGB LED Driver Demo used in conjunction with the software GUI illustrates the use of a PWM driver controlling the LEDs on the board. Below is a description of the control jumpers for each LED.
• The RGB LED (U2) will transition colors– J3 can be used to probe RGB LED (Default shunted). If you remove J3, the RGB LED will not light up.
• The IR LED (D6) is controlled when a jumper is placed across J4 pins 1-2
• The HP Torch LED (D7) is controlled when a jumper is placed across J4 pins 2-3
• The BARCODE LED (D8) is under FPGA control when a jumper is placed across J5 pins 2-3
– The IRLED FPGA output is 400 mA. This can be combined with 100 mA BARCODE FPGA output for a total of 500 mA of drive current. This is performed when a jumper is placed across J5 pins 1-2. Note: This capability is not supported in the Demonstration Design
Figure 2 shows the default jumper locations.
Figure 2. Default Jumper Locations
J16 –Enable 12 MHz clock
J4–SelectsHP LED device
(IR or Torch)J2 –Enable DONE LED
J15 –Program SPI Flash or iCE40UL
J3 –RGB Shunts
J5 –Selects Barcode output (HP LED or D8)
J14 – Isolate SPI Flash CSn
5
iCE40 UltraLite Breakout Board
Clock SourcesThe board has a single 12 MHz clock source. The 12 MHz clock drives both the FTDI USB interface device, and the iCE40UL1K device. The iCE40UL1K device can be disconnected from the 12 MHz oscillator using J16. This is nec-essary, for example, when iCE40 Ultra Lite device ball D2 is mistakenly programmed as an output and prevents the FTDI USB interface from operating.
Board PowerThe board provides the following power features:
• Board Power– Board power is derived from the USB connection.– D9 Green LED indicates Board Power
• iCE40 UltraLite VCC– Onboard 1.2 V supply– ICC can be measured across the series resistor R4 (1 Ohm) at test points +1.2 V and VCC
• iCE40 UltraLite VCCIO– Onboard 3.3 V supply– ICC0 can be measured across the series resistor R2 (1Ohm) at test points TP4 and VCCIO0– ICC1 can be measured across the series resistor R3 (1Ohm) at test points TP9 and VCCIO1– ICC2 can be measured across the series resistor R5 (1Ohm) at test points TP6 and VCCIO2
Board Configuration and ProgrammingThe board allows for programming of the iCE40 UltraLite or the SPI Flash:
• SPI Flash Programming J15 shunt pins 1-3 and 2-4 (Default shunted)– U5 Micron Technology Inc part number N25Q032A13ESC40F
• iCE40 Ultra Configuration or Programming J15 shunt pins 1-2 and 3-4– U1 iCE40UL1K-CM36A
• CRESETB can be asserted by pushing SW1– Can be probed with J1
• DONE LED D2– Can be probed with J2 (default shunted)
Details of the iCE40 UltraLite Board for use in programming are shown in Figure 3.
6
iCE40 UltraLite Breakout Board
Figure 3. Configuration and Programming Details
CRESETB Push-Button
U5-Micron N25Q032A13ESC40F
iCE40UL1K-CM36A (U1)
USB Mini-BSocket (J17)
J15 –Program SPI Flash or iCE40ULJ14 –Isolate SPI Flash CSn
J1 –CRESETB Probe
D2 –DONE LED (Green)
7
iCE40 UltraLite Breakout Board
Headers and Test ConnectionsThe board features a number of headers and test connections which provide access to the iCE40 Ultra-Lite I/Os, as shown in Figure 4, Figure 5 and Figure 6 below:
Figure 4. J6 Header ‘A’ Breakouts
Figure 5. J7 Header ‘B’ Breakouts
20 19GND GND
A2 (RGB0) F5 (CSN)GND GND
B1 (RGB1) E6 (SCK)GND F6 (SO)
A1 (RBG2) E5 (SI)HP3.3 V GND
A6 (IRLED) ncA5 (BARCODE) nc
+3.3 V nc2 1
J6Header 'A'
J7Header 'B'
20 19GND GNDD6 C6
GND F3C2 F2A3 E2B2 C1B6 D1A4 E1B5 F1
+3.3 V +3.3 V2 1
8
iCE40 UltraLite Breakout Board
Figure 6. J9 Aardvark and J8 PMOD Connector
1 2nc GNDnc nc
FLASH_MISO ncICE_SCK FLASH_MOSIICE_CSN GND
9 10
12 11+3.3 V +3.3 VGND GNDB2 C1B6 D1A4 E1B5 F12 1
J9Aardvark
J8PMOD
9
iCE40 UltraLite Breakout Board
RGB LED Demonstration Design and Software GUIThe iCE40 UltraLite Breakout Board can demonstrate a complete controller for an RGB LED. These are the steps necessary to run the demonstration.
1. Ensure that the RGB LED GUI is installed.
2. Make sure the jumpers on J15 are both in the horizontal position. This is the default pins 1-3 and 2-4 shorted together.
Figure 7. SPI Flash Selection (Horizontal) for J15
3. Connect the iCE40 UltraLite breakout board via the USB cable to a PC or MAC.
10
iCE40 UltraLite Breakout Board
4. After the iCE40 UltraLite device has initialized and the RGB LED is illuminated RED, change the J15 jumper positions to vertical, shorting pins 1-2 and 3-4. This is required to allow the USB port to communicate with the iCE40 UltraLite device.
Figure 8. iCE Selection (Vertical) for J15
5. Start the RGB GUI on the PC or MAC.
Figure 9. iCE40 UltraLite LED Demonstration Interface
Now you can control the RGB LED on the iCE40 UltraLite Breakout Board. You can set the color, brightness, blink-ing rate as well as breathing.
11
iCE40 UltraLite Breakout Board
GUI Serial Communication InterfaceLED Control via SPIThe Software GUI demonstration program communicates with the iCE40 UltraLite device using a SPI serial com-munication channel. The SPI interface (mode 0) control link is implemented using a simple write-only protocol (see Figure 10).
Figure 10. SPI Physical Transaction
SPI ProtocolData on the MOSI serial line is transmitted MSB first.
Addr[7:0] – Controls which of the 16 bits are updated with REG data.
Note: Unspecified REG bits must be written, but are ignored.
REG[15:0] – Consists of four control fields.
Addr Bits Written Bit Position0x13 REG[3:0] ------------dddd
0x14 REG[7:4] --------cccc----
0x15 REG[11:8] ----bbbb--------
0x16 REG[15:12] aaaa------------
0x19 REG[15:0] aaaabbbbccccdddd
Field Bit Positions Functionaaaa REG[15:12] RGB Color[3:0]
bbbb REG[11:8] Brightness[3:0]
cccc REG[7:4] Breathe Ramp [3:0]
dddd REG[3:0] Blink Rate [3:0]
ADDR REG [15:8] REG [7:0]
CSn
SCK
MOSI
[7:0]
12
iCE40 UltraLite Breakout Board
Register DefinitionsDefault setting (hardware, software) is denoted by (*).
RGB Color[3:0] Color Color Code0000* Red #FF0000
0001 Orange #FF7F00
0010 Yellow #FFFF00
0011 Chartreuse #7FFF00
0100 Green #00FF00
0101 Spring Green #00FF7F
0110 Cyan #00FFFF
0111 Azure #007FFF
1000 Blue #0000FF
1001 Violet #7F00FF
1010 Magenta #FF00FF
1011 Rose #FF007F
1100 —
1101 —
1110 —
1111 White #FFFFFF
Brightness[3:0] Level (%)0000 6.25(dim)
0001 12.5
0010 18.75
0011 25
0100 31.25
0101 37.5
0110 43.75
0111* 50
1000 56.25
1001 62.5
1010 68.75
1011 75
1100 81.25
1101 87.5
1110 93.75
1111 100 (bright)
13
iCE40 UltraLite Breakout Board
Breathe Ramp [3:0] Factor0000* .0x (fast)
0001 .063x
0010 .125x
0011 .25x
0100 .5x
0101 1x
0110 2x
0111 4x (slow)
1000 —
1001 —
1010 —
1011 —
1100 —
1101 —
1110 —
1111 —
Blink Rate [3:0] Off Time (s)1
0000 Always On
0001 1/16 (fast)
0010 1/8
0011 1/4
0100 1/2
0101* 1
0110 2
0111 4
1000 Always Off
1001 —
1010 —
1011 —
1100 —
1101 —
1110 —
1111 —
1. By default, the LED "On-Time" is fixed at approximately one second.
14
iCE40 UltraLite Breakout Board
Ordering Information
Description Ordering Part NumberChina RoHS Environment-Friendly Use Period (EFUP)
Technical Support AssistanceSubmit a technical support case via www.latticesemi.com/techsupport.
Revision History
© 2017 Lattice Semiconductor Corp. All Lattice trademarks, registered trademarks, patents, and disclaimers are as listed at www.latticesemi.com/legal. All other brand or product names are trademarks or registered trademarks of their respective holders. The specifications and information herein are subject to change without notice.
iCE40 UltraLite Breakout Board ICE40UL1K-B-EVN
Date Version Change Summary
March 2017 1.1 Updated Appendix A. Schematic Diagrams section. Indicated “Bank 2” in Figure 12, iCE40 ULtraLite.
Updated Technical Support Assistance information.
Updated document template.
December 2014 1.0 Initial release.
15
iCE40 UltraLite Breakout Board
Appendix A. Schematic DiagramsFigure 11. System Diagram
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
iCE40UL1LCM36A
P.3
LEDS
P.4
HEADER A
HEADER B &
PMOD
AARDVARK
CONNECTOR
SPI
Flash
USB
FTDI
Board
Power
BANK 0 - LEDS
BANK 2 - IO
BANK 0 - IO
BANK 1 - SPI / IO
P.9
P. 5
P.5
P.5
P.8
P.7
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16
iCE40 UltraLite Breakout Board
Figure 12. iCE40 UltraLite
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
Do
ne
LE
DC
RE
SE
TB
Bu
tto
n
Default: Open
DN
I
<-----High Speed Signals matched Paths 50 ohms--->
<-----High Speed Signals matched Paths 50 ohms--->
To Breakout Headers
To Breakout Headers
To Signal Connectors
(Not Populated)
���
Place near U1
To Signal Connectors
(Not Populated)
ICE
_CD
ON
E
ICE
_CR
ES
ET
_B
AP
_DA
T3
AP
_DA
T2
AP
_CLK
AP
_CM
DA
P_D
AT
1A
P_D
AT
0
AP
_DA
T3
AP
_DA
T2
AP
_CLK
AP
_CM
D
AP
_DA
T0
AP
_DA
T1
ICE
_MIS
OIC
E_M
OS
I
ICE
_CR
ES
ET
_B
SY
S_R
ST
IR_T
X
+3.3
V
VC
CIO
1V
CC
IO1
VC
CIO
2
+1.2
V
+1.2
V
VC
CIO
1
VC
CIO
0
VC
CIO
1
VC
CIO
2
ICE
_MIS
O[5
,6,7
]
SD
_DA
T0
[6]
SD
_DA
T1
[6]
SD
_DA
T2
[6]
SD
_CM
D[6
]S
D_D
AT
3[6
]
AP
_DA
T3
[6]
AP
_DA
T2
[6]
AP
_CLK
[6]
AP
_CM
D[6
]A
P_D
AT
1[6
]A
P_D
AT
0[6
]
IO_B
5[5
]IO
_A4
[5]
IO_B
6[5
]IO
_B2
[5]
IO_A
3[5
]IO
_C2
[5]
IO_F
1[5
]IO
_E1
[5]
IO_D
1[5
]IO
_C1
[5]
IO_E
2[5
]IO
_F2
[5]
BA
RC
OD
E[4
,5,6
]
ICE
_CR
ES
ET
_B[6
,8]
VC
C_I
CE
[6]
VC
CP
LL_I
CE
[6]
VP
P_2
V5
[6]
VC
CIO
0_IC
E[6
]V
CC
IO2_
ICE
[6]
IR_T
X[4
,5,6
]LE
D_B
LUE
[4,5
,6]
LED
_GR
EE
N[4
,5,6
]LE
D_R
ED
[4,5
,6]
IO_C
6[4
,5,6
] SY
S_C
LK[6
,8]
ICE
_MO
SI
[5,6
,7]
ICE
_SC
K[5
,6,7
,8] IC
E_C
SN
[5,6
,7,8
]IO_D
6[5
,6,9
]IC
E_C
DO
NE
[6,8
]
IO_F
3[5
,6]
SD
_CLK
[6]
VC
CIO
1_IC
E[6
]
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ICE
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ICE
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ICE
40 U
ltra
Lite
ICE
40-U
ltra
Lite
Bre
akou
t Boa
rdA
C11
10nF
R13 0
R7
10k
VC
CIO
2D
NI
1
J1 CR
ST
B
1 2
J2 CD
ON
E
1 2
R19
2.2k
C10
0.1u
F
C59
10nF
TP
9D
NI 1
R8
402
C6
1uF
R3
1
R15 0
+1.2
VD
NI
1
SW
2
SW
2
VC
C_P
LLD
NI
1
R1
1
R22 0
C2
10nF
1.2VDN
I
1
R21 0
C58
10nF
C12
0.1u
F
C1
0.1u
FC
131u
F
VC
CD
NI
1
R20 0
VC
CIO
1D
NI 1
R6
100
R2
1
R18 0
C8
10nF
TP
14D
NI 1
D2
Gre
en
C5
10nF
SW
1
CR
ST
B
R12 0
R17 0
J20
12
C7
0.1u
F
C9
1uF
TP
4D
NI 1
C4
0.1u
F
R4
1
R48
2.2k
R16 0
R14 0
C15
10nF
C14
0.1u
FV
CC
IO0
DN
I 1R
5
1
D1
CD
BU
0520
1 2
BANK 0
BANK 1
BANK2
iCE
40U
L1K
-CM
36A
U1 IR
LED
A6
IOB
_10A
D6
IOB
_11B
_CD
ON
ED
5
CR
ES
ET
_BF
4IO
T_2
7AC
2
IOB
_0A
/TR
UE
_of_
IOB
_1B
F1
IOB
_1B
/CO
MP
_of_
IOB
_0A
E1
IOB
_3B
_GB
IN6
F2
IOB
_5B
/CO
MP
_of_
IOB
_4A
C1
IOB
_4A
/TR
UE
_of_
IOB
_5B
D1
IOB
_7B
_GB
IN5/
CO
MP
_of_
IOB
_6A
F3
IOB
_6A
/TR
UE
_of_
IOB
_7B
E2
IOB
_14A
_SP
I_S
OF
6
IOB
_15B
_SP
I_S
IE
5
IOB
_16A
_SP
I_S
CK
E6
IOB
_17B
_SP
I_S
SF
5
SP
I_V
CC
IO1
E4
IOB
_8A
_GB
IN4
D2
GNDC3
IOT
_18B
/CO
MP
_of_
IOT
_19A
B5
IOT
_19A
/TR
UE
_of_
IOT
_18B
A4
IOT
_21A
_GB
IN1
B6
IOT
_22B
_GB
IN0
C6
IOT
_24B
/CO
MP
_of_
IOT
_25A
B2
IOT
_25A
/TR
UE
_of_
IOT
_24B
A3
VC
CIO
_2E
3V
CC
PLL
D4
BA
RC
OD
EA
5
RG
B2
A1
RG
B1
B1
RG
B0
A2
VC
CIO
_0B
3
GNDC4
VCCD3
VPP_2V5B4
GND_LEDC5
R11 0
J21
12
C3
1uF
R10 0
TP
6D
NI
1
R9
10k
BANK 2
17
iCE40 UltraLite Breakout Board
Figure 13. LEDS
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
HP
LE
D S
EL
EC
TIO
N1-
2: IR
LE
D2-
3: H
P T
orc
h L
ED
Not
e:T
race
sho
uld
be 5
00 m
A s
ize,
incl
udin
g to
Hea
der
A
RG
B L
ED
BA
RC
OD
E1-
2: 5
00 m
A C
urr
ent
on
IR_T
X2-
3: B
AR
CO
DE
LE
D 1
00 m
A, I
R_T
X 4
00 m
A
IR_R
X M
od
ule
- D
NI DN
I
IR_T
XIR
_TX
VB
US
_5V
VC
CIO
0
+VC
C_3
.3V
+VC
C_3
.3V
+VC
C_3
.3V
LED
_GR
EE
N[3
,5,6
]LE
D_R
ED
[3,5
,6]
LED
_BLU
E[3
,5,6
]IR
_TX
[3,5
,6]
BA
RC
OD
E[3
,5,6
]
IO_C
6[3
,5,6
]
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LED
S ICE
40-U
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atic
Rev
ofS
heet
Titl
e
Latti
ce S
emic
ondu
ctor
App
licat
ions
Em
ail:
tech
supp
ort@
Latti
cese
mi.c
om
Boa
rd R
ev
Pro
ject
Thu
rsda
y, A
ugus
t 28
2014
BA
104
LED
S ICE
40-U
ltra
Lite
Bre
akou
t Boa
rdA
Dat
e:
Siz
eS
chem
atic
Rev
ofS
heet
Titl
e
Latti
ce S
emic
ondu
ctor
App
licat
ions
Em
ail:
tech
supp
ort@
Latti
cese
mi.c
om
Boa
rd R
ev
Pro
ject
Thu
rsda
y, A
ugus
t 28
2014
BA
104
LED
S ICE
40-U
ltra
Lite
Bre
akou
t Boa
rdA
J4 HE
AD
ER
31 2 3
R26
100
D8
BA
R AP
T20
12S
RC
PR
V
R23
110
J5 HE
AD
ER
31 2 3
D6
TS
AL6
200
D7
XB
DA
WT
R27
0
U3
TS
MP
4138
VD
D3
OU
T1
GN
D2
J3
R G
B
2 4 6
1 3 5D
4C
DB
U05
201
2
D5
CD
BU
0520
12
C16
4.7u
F
U2
LED
TR
I-C
OLO
UR
_0
SF
T72
2N-S
4 5 6123
R24
62
R25
62
D3
CD
BU
0520
12
18
iCE40 UltraLite Breakout Board
Figure 14. Headers
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
HEA
DER
BH
EAD
ER A
MA
KE
PW
R T
RA
CE
SC
AP
AB
LE O
F 1
A
MA
KE
PW
R T
RA
CE
SC
AP
AB
LE O
F 1
A
PM
OD
Co
nn
ecto
rA
ard
vark
Co
nn
ecto
r
IO_B
5IO
_A4
IO_B
6IO
_B2
IO_F
1IO
_E1
IO_D
1IO
_C1
ICE
_CS
NIC
E_
SC
K
+3.3
V+3
.3V
+3.3
V
+3.3
V+3
.3V
+VC
C_3
.3V
LED
_BLU
E[3
,4,6
]
LED
_GR
EE
N[3
,4,6
]
LED
_RE
D[3
,4,6
]
ICE
_MO
SI
[3,6
,7]
ICE
_SC
K[3
,6,7
,8]
ICE
_CS
N[3
,6,7
,8]
ICE
_MIS
O[3
,6,7
]
IO_B
5[3
]IR
_TX
[3,4
,6]B
AR
CO
DE
[3,4
,6]
IO_A
4[3
]IO
_B6
[3]
IO_B
2[3
]IO
_A3
[3]
IO_C
2[3
]
IO_D
6[3
,6,9
]
IO_F
1[3
]IO
_E1
[3]
IO_D
1[3
]IO
_C1
[3]
IO_E
2[3
]IO
_F2
[3]
IO_F
3[3
]IO
_C6
[3,4
,6]
FLA
SH
_MO
SI
[7,8
]F
LAS
H_M
ISO
[7,8
]
Dat
e:
Siz
eS
chem
atic
Rev
ofS
heet
Titl
e
Latti
ce S
emic
ondu
ctor
App
licat
ions
Em
ail:
tech
supp
ort@
Latti
cese
mi.c
om
Boa
rd R
ev
Pro
ject
Thu
rsda
y, A
ugus
t 28
2014
BA
105
Hea
ders
iCE
40-U
ltra
Lite
Bre
akou
t Boa
rdA
Dat
e:
Siz
eS
chem
atic
Rev
ofS
heet
Titl
e
Latti
ce S
emic
ondu
ctor
App
licat
ions
Em
ail:
tech
supp
ort@
Latti
cese
mi.c
om
Boa
rd R
ev
Pro
ject
Thu
rsda
y, A
ugus
t 28
2014
BA
105
Hea
ders
iCE
40-U
ltra
Lite
Bre
akou
t Boa
rdA
Dat
e:
Siz
eS
chem
atic
Rev
ofS
heet
Titl
e
Latti
ce S
emic
ondu
ctor
App
licat
ions
Em
ail:
tech
supp
ort@
Latti
cese
mi.c
om
Boa
rd R
ev
Pro
ject
Thu
rsda
y, A
ugus
t 28
2014
BA
105
Hea
ders
iCE
40-U
ltra
Lite
Bre
akou
t Boa
rdA
J7 Hea
der2
x10
DN
I
2 4 6 8 10 12 14 16 18 20191715131197531
C19
0.1u
FJ6 Hea
der2
x10
DN
I
2 4 6 8 10 12 14 16 18 20191715131197531
C20
0.1u
F
J8 PM
OD
Con
nect
orD
NI
2 4 6 8 10
1 3 5 7 911
12
J9 HE
AD
ER
5X
2
1 3 5 7 9
2 4 6 8 10
C17
0.1u
F
C18
0.1u
F
19
iCE40 UltraLite Breakout Board
Figure 15. Connectors - DNI
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
<-----High Speed Signals matched Paths 50 ohms--->
Top Layer
<-----High Speed Signals matched Paths 50 ohms--->
Note position of pin#1
in reference board
AP
(DR
AG
ON
BO
AR
D) 2
mm
INTE
RC
ON
NEC
T
����
����
���
���
ICE
_SC
K
ICE
_MIS
OIC
E_C
SN
ICE
_CR
ES
ET
_B
ICE
_MO
SI
SY
S_C
LK
+3.3
VV
CC
IO2
SD
_DA
T1
[3]
SD
_DA
T0
[3]
SD
_CLK
[3]
SD
_CM
D[3
]S
D_D
AT
3[3
]S
D_D
AT
2[3
]
AP
_DA
T2
[3]
AP
_DA
T3
[3]
AP
_CM
D[3
]
AP
_CLK
[3]
AP
_DA
T1
[3]
AP
_DA
T0
[3]
ICE
_SC
K[3
,5,7
,8]
ICE
_CR
ES
ET
_B[3
,8]
ICE
_MIS
O[3
,5,7
]IC
E_C
SN
[3,5
,7,8
]
IO_D
6[3
,5,9
] IR_T
X[3
,4,5
]VC
CIO
1_IC
E[3
]
VC
CP
LL_I
CE
[3]
VC
CIO
0_IC
E[3
]V
CC
_IC
E[3
]V
CC
IO2_
ICE
[3]
LED
_RE
D[3
,4,5
] IO_C
6[3
,4,5
] LED
_GR
EE
N[3
,4,5
] LED
_BLU
E[3
,4,5
] VP
P_2
V5
[3]
IO_F
3[3
,5]
ICE
_CD
ON
E[3
,8]
BA
RC
OD
E[3
,4,5
]
SY
S_C
LK[3
,8]
ICE
_MO
SI
[3,5
,7]
Dat
e:
Siz
eS
chem
atic
Rev
ofS
heet
Titl
e
Latti
ce S
emic
ondu
ctor
App
licat
ions
Em
ail:
tech
supp
ort@
Latti
cese
mi.c
om
Boa
rd R
ev
Pro
ject
Thu
rsda
y, A
ugus
t 28
2014
BA
106
Con
nect
ors
- D
NI
iCE
40-U
ltra
Lite
Bre
akou
t Boa
rdA
Dat
e:
Siz
eS
chem
atic
Rev
ofS
heet
Titl
e
Latti
ce S
emic
ondu
ctor
App
licat
ions
Em
ail:
tech
supp
ort@
Latti
cese
mi.c
om
Boa
rd R
ev
Pro
ject
Thu
rsda
y, A
ugus
t 28
2014
BA
106
Con
nect
ors
- D
NI
iCE
40-U
ltra
Lite
Bre
akou
t Boa
rdA
Dat
e:
Siz
eS
chem
atic
Rev
ofS
heet
Titl
e
Latti
ce S
emic
ondu
ctor
App
licat
ions
Em
ail:
tech
supp
ort@
Latti
cese
mi.c
om
Boa
rd R
ev
Pro
ject
Thu
rsda
y, A
ugus
t 28
2014
BA
106
Con
nect
ors
- D
NI
iCE
40-U
ltra
Lite
Bre
akou
t Boa
rdA
R36
0
C22
10nF
R84 0
R29
10k
R32
10k
J10
AP
INT
ER
CO
NN
EC
T(2
mm
pitc
h)
2 4 6 8 10
1 3 5 7 9
C21
0.1u
FR
3410
kR
3010
k
J11
9 pi
n F
PC
con
nect
or
1 2 3 4 5 6 7 8 9
Mic
roS
D 1
14-0
0841
-68
U4
SH
411
SH
312
SH
213
SH
114
D2
1
CD
/D3
2
CM
D3
VC
C4
CLK
5
VS
S6
D0
7
D1
8
CD19
CD210
R78 0
R38
0
J13
SM
A
A1
Sh1
2
Sh2
3S
h34
Sh4
5
R28
10k
R35
0R
370
R33
10k
R31
10k
R39
0
J12
26 p
in F
PC
con
nect
or
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26
20
iCE40 UltraLite Breakout Board
Figure 16. SPI
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
J14: Remove shunt only for Programming iCE.
Replace shunt for programming Flash and for normal operation.
For programming Flash - Shunt 1,3 and 2,4 (default)
For programming iCE - Shunt 3,4 and 1,2
FLA
SH
_MIS
OF
LAS
H_M
OS
I
VC
CIO
1
ICE
_SC
K[3
,5,6
,8] IC
E_C
SN
[3,5
,6,8
]
FLA
SH
_MO
SI
[3,8
]
FLA
SH
_MIS
O[3
,8]
ICE
_MO
SI
[3,5
,6]
ICE
_MIS
O[3
,5,6
]
Dat
e:
Siz
eS
chem
atic
Rev
ofS
heet
Titl
e
Latti
ce S
emic
ondu
ctor
App
licat
ions
Em
ail:
tech
supp
ort@
Latti
cese
mi.c
om
Boa
rd R
ev
Pro
ject
Thu
rsda
y, A
ugus
t 28
2014
BA
107
SP
I
iCE
40-U
ltra
Lite
Bre
akou
t Boa
rdA
Dat
e:
Siz
eS
chem
atic
Rev
ofS
heet
Titl
e
Latti
ce S
emic
ondu
ctor
App
licat
ions
Em
ail:
tech
supp
ort@
Latti
cese
mi.c
om
Boa
rd R
ev
Pro
ject
Thu
rsda
y, A
ugus
t 28
2014
BA
107
SP
I
iCE
40-U
ltra
Lite
Bre
akou
t Boa
rdA
Dat
e:
Siz
eS
chem
atic
Rev
ofS
heet
Titl
e
Latti
ce S
emic
ondu
ctor
App
licat
ions
Em
ail:
tech
supp
ort@
Latti
cese
mi.c
om
Boa
rd R
ev
Pro
ject
Thu
rsda
y, A
ugus
t 28
2014
BA
107
SP
I
iCE
40-U
ltra
Lite
Bre
akou
t Boa
rdA
C24
0.1u
F
R40
10k
R42
10k
C23
0.1u
F
U5
N25
Q03
2A13
ES
C40
F
CS
1
SD
I5
SC
K6
WP
3
HO
LD7
VCC8
GND4
SD
O2
J15 H
EA
DE
R 2
X2
3 41 2
R43
10k
R41
10k
J14
12
21
iCE40 UltraLite Breakout Board
Figure 17. SPI
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
FTD
I CO
NN
EC
TIO
N
SS
FT
_EE
CS
FT
_EE
CLK
FT
_EE
DA
TA
SC
KS
IS
O
VC
C1_
8FT
VC
C1_
8FT
VC
CIO
1
+3.3
V
+3.3
V
+3.3
V
+3.3
V
+3.3
V
+3.3
V
+3.3
VIC
E_C
DO
NE
[3,6
]IC
E_C
RE
SE
T_B
[3,6
]
SY
S_C
LK[3
,6]
ICE
_SC
K[3
,5,6
,7]
FLA
SH
_MO
SI
[5,6
,7]
FLA
SH
_MIS
O[5
,6,7
]
ICE
_CS
N[3
,5,6
,7]
DM
[9]
DP
[9]
Dat
e:
Siz
eS
chem
atic
Rev
ofS
heet
Titl
e
Latti
ce S
emic
ondu
ctor
App
licat
ions
Em
ail:
tech
supp
ort@
Latti
cese
mi.c
om
Boa
rd R
ev
Pro
ject
Thu
rsda
y, A
ugus
t 28
2014
BA
108
FT
DI iC
E40
-Ultr
a Li
te B
reak
out B
oard
AD
ate:
Siz
eS
chem
atic
Rev
ofS
heet
Titl
e
Latti
ce S
emic
ondu
ctor
App
licat
ions
Em
ail:
tech
supp
ort@
Latti
cese
mi.c
om
Boa
rd R
ev
Pro
ject
Thu
rsda
y, A
ugus
t 28
2014
BA
108
FT
DI iC
E40
-Ultr
a Li
te B
reak
out B
oard
AD
ate:
Siz
eS
chem
atic
Rev
ofS
heet
Titl
e
Latti
ce S
emic
ondu
ctor
App
licat
ions
Em
ail:
tech
supp
ort@
Latti
cese
mi.c
om
Boa
rd R
ev
Pro
ject
Thu
rsda
y, A
ugus
t 28
2014
BA
108
FT
DI iC
E40
-Ultr
a Li
te B
reak
out B
oard
A
C31
4.7u
F
C30
0.1u
F
C27
0.1u
F
R44
10k
C26
0.1u
F
R51
0
R53
0
J16
12
R52
0
C25
0.1u
F
C34
0.1u
F
R50
2.2k
C36
0.1u
F
C33
4.7u
F
X1
12.0
00M
HZ
SIT
1602
AC
-73-
33S
-12.
0000
G
VD
D4
ST
AN
DB
Y#
1
GN
D2
OU
TP
UT
3C35
10uF
R47
2.2k
FTD
I Hig
h-S
peed
US
B
F
T223
2H
FT
2232
HL
U7
VR
EG
IN50
VR
EG
OU
T49
DM
7
DP
8
RE
F6
RE
SE
T#
14
EE
CS
63
EE
CLK
62
EE
DA
TA
61
OS
CI
2
OS
CO
3
TE
ST
13
AD
BU
S0
16
AD
BU
S1
17
AD
BU
S2
18
AD
BU
S3
19
VPHY4
VPLL9
VCORE12
VCORE37
VCORE64
VCCIO20
VCCIO31
VCCIO42
VCCIO56
AGND10
GND1
GND5
GND11
GND15
GND25
GND35
GND47
GND51P
WR
EN
#60
SU
SP
EN
D#
36
AD
BU
S4
21
AD
BU
S5
22
AD
BU
S6
23
AD
BU
S7
24
AC
BU
S0
26
AC
BU
S1
27
AC
BU
S2
28
AC
BU
S3
29
AC
BU
S4
30
AC
BU
S5
32
AC
BU
S6
33
AC
BU
S7
34
BD
BU
S0
38
BD
BU
S1
39
BD
BU
S2
40
BD
BU
S3
41
BD
BU
S4
43
BD
BU
S5
44
BD
BU
S6
45
BD
BU
S7
46
BC
BU
S0
48
BC
BU
S1
52
BC
BU
S2
53
BC
BU
S3
54
BC
BU
S4
55
BC
BU
S5
57
BC
BU
S6
58
BC
BU
S7
59
C37
0.1u
F
L4 600
OH
M 8
00M
A
R54
0
R49
2.2k
R56
0
93LC
56-S
O8
U6
CS
1
CLK
2
DI
3
DO
4V
SS
5O
RG
6N
U7
VC
C8
R55
0
R46
10k
C29
0.1u
F
L5 600
OH
M 8
00M
A
C32
0.1u
F
R45
10k
C28
0.1u
F
22
iCE40 UltraLite Breakout Board
Figure 18. Voltage Regulators
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
5V Input
1.2V Input
DN
I
PS
EL
= 0,
VC
CIO
2 =
1.8
VP
SE
L =
1, V
CC
IO2
= 3.
3 V
+1.2
V
+3.3
V
+1.2
V_R
EG
US
B_5
V
+3.3
V
+3.3
V+1
.2V
EX
T_5
VE
XT
_1.2
V+1
.2V
VB
US
_5V
VB
US
_5V
+1.8
V
+3.3
V
+1.2
V_R
EG
+1.2
V
US
B_5
VV
BU
S_5
V
VB
US
_5V
VB
US
_5V
VC
CIO
1
VC
CIO
2
VC
CIO
2
VC
CIO
1
VC
CIO
1
VC
CIO
0
+3.3
VV
CC
IO0
+VC
C_3
.3V
DM
[8]
DP
[8]
IO_D
6[3,
5,6]
Dat
e:
Siz
eS
chem
atic
Rev
ofS
heet
Titl
e
Latti
ce S
emic
ondu
ctor
App
licat
ions
Em
ail:
tech
supp
ort@
Latti
cese
mi.c
om
Boa
rd R
ev
Pro
ject
Thu
rsda
y, A
ugus
t 28
2014
BA
109
Vol
tage
Reg
ulat
ors
iCE
40-U
ltra
Lite
Bre
akou
t Boa
rdA
Dat
e:
Siz
eS
chem
atic
Rev
ofS
heet
Titl
e
Latti
ce S
emic
ondu
ctor
App
licat
ions
Em
ail:
tech
supp
ort@
Latti
cese
mi.c
om
Boa
rd R
ev
Pro
ject
Thu
rsda
y, A
ugus
t 28
2014
BA
109
Vol
tage
Reg
ulat
ors
iCE
40-U
ltra
Lite
Bre
akou
t Boa
rdA
Dat
e:
Siz
eS
chem
atic
Rev
ofS
heet
Titl
e
Latti
ce S
emic
ondu
ctor
App
licat
ions
Em
ail:
tech
supp
ort@
Latti
cese
mi.c
om
Boa
rd R
ev
Pro
ject
Thu
rsda
y, A
ugus
t 28
2014
BA
109
Vol
tage
Reg
ulat
ors
iCE
40-U
ltra
Lite
Bre
akou
t Boa
rdA
L3 600
OH
M 8
00M
A
J19
2 P
ositi
on T
erm
inal
Blo
ck
11
22
C67
0.1u
F
C47
10uF
C55
0.1u
F
R67
40.2
K
C65
0.1u
F
R75
0
R60
1M
U10
LT30
30E
FE
#TR
PB
F
GND35
IN1_
118
SH
DN
211
GND215
PW
RG
D1
19
IN1_
217
IN2_
114
PW
RG
D2
12
GND46
IN2_
213
SH
DN
120
GND116
OU
T1_
13
OU
T1_
24
BY
P1
2
AD
J11
OU
T2_
17
OU
T2_
28
BY
P2
9
AD
J210
TH
ER
MP
AD
21
R72
0
C38
0.1u
F
C62
0.1u
F
R73
0
J18
2 P
ositi
on T
erm
inal
Blo
ck
11
22
C60
10uF
R69
10K
DN
I
C61
22uF
123
Q1
IRLM
L634
4
C64
10uF
C39
10uF
TP
3
DN
I 1
TP
1
DN
I 1
R65
100
C51
10uF
R61
357K
C52
0.1u
FC
530.
1uF
C50
10nF
R70
0
C56
0.1u
F
C49
0.1u
F
L2 600
OH
M 8
00M
A
R77
0
C44
10nF
R68
37.4
K
R57
0
C66
0.1u
F
C48
1uF
J22
12
R58
1K
D9
Gre
en
C57
10nF
C45
4.7u
F
R81
0
R74
0
C46
22uF
R66
100
C41
10uF
R71
0
J17
SK
T_M
INIU
SB
_B_R
A
VC
C1
D-
2
D+
3
ID4
GN
D5
U8
NC
P11
17S
T18
GN
D
1
IN3
OU
T2
TA
B4
C54
0.1u
F
L1 600
OH
M 8
00M
A
R63
100
R76
0
C63
0.1u
FR
591M
TP
2
DN
I 1
C40
10nF
R64
140K
C42
22uF
C43
0.1u
FR
6221
0K
U11
LTC
3025
OU
T4
/SH
DN
6
GND2
AD
J5
IN3
BIA
S1
EPAD7
23
iCE40 UltraLite Breakout Board
Figure 19. Mechanical Details
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
Dat
e:
Siz
eS
chem
atic
Rev
ofS
heet
Titl
e
Latti
ce S
emic
ondu
ctor
App
licat
ions
Em
ail:
tech
supp
ort@
Latti
cese
mi.c
om
Boa
rd R
ev
Pro
ject
Thu
rsda
y, A
ugus
t 28
2014
BA
1010
Mec
hani
cal D
etai
ls
ICE
40-U
ltraL
ite B
reak
out B
oard
AD
ate:
Siz
eS
chem
atic
Rev
ofS
heet
Titl
e
Latti
ce S
emic
ondu
ctor
App
licat
ions
Em
ail:
tech
supp
ort@
Latti
cese
mi.c
om
Boa
rd R
ev
Pro
ject
Thu
rsda
y, A
ugus
t 28
2014
BA
1010
Mec
hani
cal D
etai
ls
ICE
40-U
ltraL
ite B
reak
out B
oard
AD
ate:
Siz
eS
chem
atic
Rev
ofS
heet
Titl
e
Latti
ce S
emic
ondu
ctor
App
licat
ions
Em
ail:
tech
supp
ort@
Latti
cese
mi.c
om
Boa
rd R
ev
Pro
ject
Thu
rsda
y, A
ugus
t 28
2014
BA
1010
Mec
hani
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etai
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40-U
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ite B
reak
out B
oard
A
24
iCE40 UltraLite Breakout Board
Appendix B. Bill of MaterialsItem Quantity Reference Value Manufacturer Mfg P/N Populated
1 5 C1,C4,C7,C10,C14 0.1 uF Kemet C0603C104K4RACTU Yes
2 5 C2,C5,C8,C11,C15 10 nF Kemet C0603C103K4RACTU Yes
3 4 C3,C6,C9,C13 1 uF Murata GRM188R61A105KA61D Yes
4 17 C12,C17,C18,C19,C20,C23,C24,C37,C38,C43,C49,C52,C53,C54,C55,C56,C63
0.1 uF Kemet C0603C104K4RACTU Yes
5 1 C16 4.7 uF Murata GRM188R60J475KE19D —
6 1 C21 0.1 uF Kemet C0603C104K4RACTU —
7 1 C22 10 nF Kemet C0603C103K4RACTU —
8 9 C25,C26,C27,C28,C29,C30,C32,C34,C36
0.1 uF Kemet C0603C104K4RACTU Yes
9 2 C31,C33 4.7 uF Murata GRM188R60J475KE19D Yes
10 1 C35 10 uF Taiyo Yuden LMK107BBJ106MAHT Yes
11 4 C39,C41,C47,C51 10 uF Taiyo Yuden LMK107BBJ106MAHT Yes
12 6 C40,C44,C50,C57,C58,C59
10 nF Kemet C0603C103K4RACTU Yes
13 2 C42,C46 22 uF TDK C2012X5R1A226M125AB Yes
14 1 C45 4.7 uF Murata GRM188R60J475KE19D Yes
15 1 C48 1uF Murata GRM188R61A105KA61D Yes
16 2 C60,C64 10 uF Taiyo Yuden LMK107BBJ106MAHT —
17 1 C61 22 uF TDK C2012X5R1A226M125AB —
18 4 C62,C65,C66,C67 0.1 uF Kemet C0603C104K4RACTU —
19 4 D1,D3,D4,D5 CDBU0520 Comchip CDBU0520 Yes
20 2 D2,D9 Green Osram LG L29K-G2J1-24-Z Yes
21 1 D6 TSAL6200 Vishay TSAL6200 Yes
22 1 D7 XBDAWT Cree XBDAWT-00-0000-00000LCE3 Yes
23 1 D8 BAR Kingbright Corp APT2012SRCPRV Yes
24 1 J1 CRSTB FCI 77311-801-02LF Yes
25 1 J2 CDONE FCI 77311-801-02LF Yes
26 1 J3 0.1" Header 3 x 2
— — Yes
27 2 J4,J5 0.1" Header 3 x 1
— — Yes
28 2 J6,J7 0.1" Header 10 x 2
Samtec MTSW-110-08-G-D-265 —
29 1 J8 0.1" Header 6 x 2
— — —
30 1 J9 0.1" Header 5 x 2
— — Yes
31 1 J10 Header 5x2 (2 mm pitch)
Molex 087758-1016 —
32 1 J11 9 pin FPC connector
Molex Inc 522070960 —
33 1 J12 26 pin FPC connector
Omron XF2M-2615-1A —
25
iCE40 UltraLite Breakout Board
34 1 J13 SMA Molex Inc 733910060 —
35 2 J14,J16 0.1" Header 2 x 1
FCI 77311-801-02LF Yes
36 1 J15 0.1" Header 2 x 2
— — Yes
37 1 J17 SKT_MINIUSB_B_RA
Neltron 5075BMR-05-SM-CR Yes
38 2 J18,J19 2 Position Terminal
Block
Phoenix Contact 1990009 —
39 3 J20,J21,J22 0.1" Header 2 x 1
FCI 77311-801-02LF —
40 3 L1,L2,L3 600 Ohm 800 mA
Murata BLM18HE601SN1D / BLM18AG601SN1D
Yes
41 2 L4,L5 600 Ohm 800 mA
Murata BLM18HE601SN1D / BLM18AG601SN1D
Yes
42 1 Q1 IRLML6344 IR IRLML6344TRPBF —
43 2 R1,R4 1 Panasonic ERJ-3RQF1R0V Yes
44 3 R2,R3,R5 1 Panasonic ERJ-3RQF1R0V Yes
45 1 R6 100 Vishay Dale CRCW0603100RFKEAHP Yes
46 5 R7,R40,R41,R42,R43
10k Panasonic ERJ-3EKF1002V Yes
47 1 R8 402 Panasonic ERJ-3EKF4020V Yes
48 1 R9 10k Panasonic ERJ-3EKF1002V —
49 18 R10,R11,R12,R13,R14,R15,R16,R17,R18,R20, R21,R22,R51,R52,R53,R54,R55,R56
0 Panasonic ERJ-3GEY0R00V Yes
50 2 R19,R48 2.2 k Yageo RC0603FR-072K2L —
51 1 R23 110 Panasonic ERJ-3EKF1100V Yes
52 1 R24 62 Panasonic ERJ-3EKF62R0V Yes
53 1 R25 62 Panasonic ERJ-3EKF62R0V Yes
54 1 R26 100 Panasonic ERJ-3EKF1000V —
55 10 R27,R35,R36,R37,R38,R39,R70,R71,R72,R81
0 Panasonic ERJ-3GEY0R00V —
56 7 R28,R29,R30,R31,R32,R33,R34
10 k Panasonic ERJ-3EKF1002V —
57 3 R44,R45,R46 10 k Panasonic ERJ-3EKF1002V Yes
58 3 R47,R49,R50 2.2 k Yageo RC0603FR-072K2L Yes
59 3 R57,R75,R76 0 Panasonic ERJ-3GEY0R00V Yes
60 1 R58 1 K Vishay Dale CRCW06031K00FKEA Yes
61 2 R59,R60 1 M Vishay Dale CRCW04021M00JNED Yes
62 1 R61 357 K Panasonic ERJ-3EKF3573V Yes
63 1 R62 210 K Panasonic ERJ-3EKF2103V Yes
64 3 R63,R65,R66 100 Panasonic ERJ-3EKF1000V Yes
65 1 R64 140 K Yageo RC0603FR-07140KL Yes
66 1 R67 40.2 K Panasonic ERJ-3EKF4022V Yes
Item Quantity Reference Value Manufacturer Mfg P/N Populated
26
iCE40 UltraLite Breakout Board
67 1 R68 37.4 K Panasonic ERJ-3EKF3742V Yes
68 1 R69 10 K Panasonic ERJ-3EKF1002V —
69 3 R73,R74,R77 0 Panasonic ERJ-3GEY0R00V Yes
70 1 R78 0 Panasonic ERJ-3GEY0R00V —
71 1 R84 0 Panasonic ERJ-3GEY0R00V —
72 1 SW1 CRSTB E-Switch TL1015AF160QG Yes
73 1 SW2 SW2 E-Switch TL1015AF160QG —
74 1 U1 iCE40UL1K-CM36A
Lattice iCE40UL1K-CM36A Yes
75 1 U2 LED TRI-COLOUR_0
Seoul Semicon-ductor Inc
SFT722N-S Yes
76 1 U3 TSMP4138 Vishay TSMP4138 —
77 1 U4 MicroSD 114-00841-
68
Amphenol 114-00841-68 —
78 1 U5 N25Q032A13ESC40F
Micron N25Q032A13ESC40F Yes
79 1 U6 93LC56-SO8
Microchip 93LC56CT-I/SN Yes
80 1 U7 FT2232HL FTDI FT2232HL-REEL Yes
81 1 U8 NCP1117ST18
ON Semicon-ductor
NCP1117ST18T3G —
82 1 U10 LT3030EFE#TRPBF
Linear LT3030EFE#TRPBF Yes
83 1 U11 LTC3025 Linear LTC3025EDC#TRMPBF —
84 1 X1 12.000 MHz SiTIME SIT1602AC-73-33S-12.000000G Yes
Item Quantity Reference Value Manufacturer Mfg P/N Populated