HDR3X2
Abstract: No abstract text available
Text: 1 2 3 PS1 C14 0.1UF C17 0.1UF C16 0.01UF JP2 P0JP201 N0CD0N CD_N HDR_2 GND P0JP203 D1 P0JP205 VCC P0D10K LED P0C1002 P0C1001 C9 0.01UF VCC P0C201 P0C202 75 N0Z7503 Z75_3 N0Z7504 Z75_4 1UF P0R502 P0R202 R2 75 R5 37.4 GND Z75_1: W=20MIL, ZO=75+-5% C4 1UF N0Z5001
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P0JP201
P0JP203
P0JP205
P0D10K
P0C1002
P0C1001
P0C201
P0C202
N0Z7503
N0Z7504
HDR3X2
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PDF
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Untitled
Abstract: No abstract text available
Text: XRP9710EVB-DEMO-1 Dual Output Digital PWM/PFM Demo Board Programmable Power Management System December 2013 Rev. 1.0.0 GENERAL DESCRIPTION EVALUATION BOARD MANUAL The XRP779710EVB-DEMO-1 board is a complete, two channel power system. The default configuration provides 1.8V and 2.5V
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XRP9710EVB-DEMO-1
XRP779710EVB-DEMO-1
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t58b
Abstract: SP0503BA SP0503BAHTG FDS8984 SP0503 P0R2902 C8051F320-GQ p0c6201 N0P101 C8051F32
Text: 2 3 0805 GND C62 16V 1uf GND N0VIN1 VIN1 C60 0.01uF 50V N0VCCD VCCD CH1 BuckSupply_CH1 GND N0VCCA VCCA N0BST1 BST1 0805 10 OHM N0GH1 GH1 C17 16V 4.7uf LX1 N0DVDD DVDD T34 2 38 P0U4038 P0U4037 VCCA AVDD P0U401 0603 N0LX2 LX2 26 N0VCCD VCCD N0GL2 GL2 T51 N0VOUT0FB0CH2
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P0U4038
P0U401
P0U4025
P0U4024
P0U4023
P0U4022
P0U4021
P0U4015
N0VJ803
P0J804
t58b
SP0503BA
SP0503BAHTG
FDS8984
SP0503
P0R2902
C8051F320-GQ
p0c6201
N0P101
C8051F32
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PDF
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SIR474
Abstract: grm32er7ya106ka XRP7724
Text: XRP7720/7724/7725EVB-DEMO-1 Quad Channel Digital PWM/PFM Demo Board Programmable Power Management System January 2014 GENERAL DESCRIPTION The XRP7720/7724/7725EVB-DEMO-1 board is a complete, four channel, power system. It provides 3.3V, 2.5V 1.5V and 1V at a
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XRP7720/7724/7725EVB-DEMO-1
XRP7720/7724/7725EVB-DEMO-1
SIR474
grm32er7ya106ka
XRP7724
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DIP4NS
Abstract: BR1 400V XSTR CAP 10u 10 25V X7R 1206 hi1206t161r-10 ic bridge rectifier CAP 470N 50V X7R thermistor MF72 BSS123 NXP CGRM4007-G
Text: 1.0 Design Specifications Inputs Output #1 VinMin=80V Vout1=LED dependant, up to 32V VinMax=135V Iout1=0.6A A bill of materials below describes the parts used on this demonstration board. A schematic and layout have also been included below along with measured performance characteristics. The above restrictions for the input voltage are valid
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LM3445
CSP-9-111S2)
CSP-9-111S2.
RD-172
DIP4NS
BR1 400V
XSTR
CAP 10u 10 25V X7R 1206
hi1206t161r-10
ic bridge rectifier
CAP 470N 50V X7R
thermistor MF72
BSS123 NXP
CGRM4007-G
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PDF
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at powersupply schematic
Abstract: LMH0040 P0D30 C1649
Text: 1 2 3 4 5 6 VDD33_5 VDD25_5 P0R1102 SMBus U1 GND J2 C 5 P0U105 RSVD 30 P0U1030 RESET/ 6 P0U106 DVB_ASI 9 P0U109 GND 31 P0U1031 LOCK/ 10P0U1010 GND 34 P0U1034 SMB_CS 3 P0U103 GPIO0 4 P0U104 GPIO1 11 P0U1011 GPIO2 8 P0U108 GND 29P0U1029 GND 13P0U1013 GND 2 P0U102
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P0R1102
P0U105
P0U1030
P0U106
P0U109
P0U1031
10P0U1010
P0U1034
P0U103
P0U104
at powersupply schematic
LMH0040
P0D30
C1649
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PDF
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ATmega16hva
Abstract: 2sb2012 P0R2202 NC7SZ57P6X SB200 NDC7001C wsl0805r0100 P0C1102
Text: 1 2 _ _ Y = I0 •(I2) + (I1)•(I2) 3 4 5 Remove when using SB200 R24 P0R2402 PCB Edge-connector to SB200 VCC 19 17 P0J5015 15 P0J5013 13 P0J5011 11 P0J509 9 P0J507 7 P0J505 5 P0J503 3 P0J501 1 A C14 P0C1302 P0C1301 P0C1402 P0C1401 100n 20 P0J5020 18 P0J5018
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SB200
P0R2402
P0J5015
P0J5013
P0J5011
P0J509
P0J507
P0J505
P0J503
ATmega16hva
2sb2012
P0R2202
NC7SZ57P6X
SB200
NDC7001C
wsl0805r0100
P0C1102
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PDF
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P0R902
Abstract: ATmega16hva P0C1002 P0R1702 NDC7001C P0R1401 P0R1402 P0R601 P0R101 ATmega16HVA-36CK1
Text: 1 2 _ _ Y = I0 •(I2) + (I1)•(I2) 3 4 5 Remove when using SB200 R24 PCB Edge-connector to SB200 19 17 P0J5015 15 P0J5013 13 P0J5011 11 P0J509 9 P0J507 7 P0J505 5 P0J503 3 P0J501 1 C11 100n C12 P0C1102 P0C1101 P0C1202 P0C1201 100n 100n P0R601 10K 1 P0D101
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SB200
P0J5015
P0J5013
P0J5011
P0J509
P0J507
P0J505
P0J503
P0J501
P0R902
ATmega16hva
P0C1002
P0R1702
NDC7001C
P0R1401
P0R1402
P0R601
P0R101
ATmega16HVA-36CK1
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PDF
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MB91F465P
Abstract: 680r P0C62 PPG24 PIN76 r40a
Text: 1 2 3 4 5 6 7 8 J5A DB7 DB6 DB5 DB4 Pin[1.176] J3 P0J1029 P0J1030 P0J1031 P0J1032 P0J1033 P0J1034 P0J1035 P0J1036 P0J1037 P0J1038 P0J1039 P0J1040 P0J1041 P0J1042 P0J1043 P0J1044 CON44 J2 C P0J202 P0J203 P0J204 P0J205 P0J206 P0J207 P0J208 P0J209 P0J2010 P0J2011
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P0J1029
P0J1030
P0J1031
P0J1032
P0J1033
P0J1034
P0J1035
P0J1036
P0J1037
P0J1038
MB91F465P
680r
P0C62
PPG24
PIN76
r40a
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PDF
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lcd color monitor p15-1
Abstract: R40B PPG30 PPG26 r40a mb91f465 p0c69 RC41C P0C3302 P0D2202
Text: 1 2 3 4 5 6 7 8 J5A DB7 DB6 DB5 DB4 Pin[1.176] J3 P0J1029 P0J1030 P0J1031 P0J1032 P0J1033 P0J1034 P0J1035 P0J1036 P0J1037 P0J1038 P0J1039 P0J1040 P0J1041 P0J1042 P0J1043 P0J1044 CON44 J2 C P0J202 P0J203 P0J204 P0J205 P0J206 P0J207 P0J208 P0J209 P0J2010 P0J2011
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P0J1029
P0J1030
P0J1031
P0J1032
P0J1033
P0J1034
P0J1035
P0J1036
P0J1037
P0J1038
lcd color monitor p15-1
R40B
PPG30
PPG26
r40a
mb91f465
p0c69
RC41C
P0C3302
P0D2202
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PDF
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ST7LITEUS5
Abstract: free download datasheet 1N4148 P1111 1n4148 c14 c13 inductive P10 led 220k 5v P12 1.5NF 1 63V TDE1708DFT
Text: Designator2 Designator3 P0Designator200 P0Designator300 Designator11 Designator8 P0Designator1101 P13 P0Designator801 Designator4 P0Designator400 P2 P14 P15 P0P1401 D3 P0D302P0D301 C1 C2 P0P1501 P0P204 P0P206 P0P2010 P0P203 P0P205 P0P209 P0Designator901 P0D202
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P0Designator200
P0Designator300
Designator11
P0Designator1101
P0Designator801
P0Designator400
P0P1401
P0D302
P0D301
P0P1501
ST7LITEUS5
free download datasheet 1N4148
P1111
1n4148
c14 c13
inductive
P10 led
220k 5v
P12 1.5NF 1 63V
TDE1708DFT
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PDF
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lcd color monitor p15-1
Abstract: P0C50 JP66 P0X706 LG P350 P0D2202 RC39 R40A P0X408 P0C90
Text: 1 2 3 4 5 6 7 8 J5A DB7 DB6 DB5 DB4 Pin[1.176] J3 P0J1029 P0J1030 P0J1031 P0J1032 P0J1033 P0J1034 P0J1035 P0J1036 P0J1037 P0J1038 P0J1039 P0J1040 P0J1041 P0J1042 P0J1043 P0J1044 CON44 J2 C P0J202 P0J203 P0J204 P0J205 P0J206 P0J207 P0J208 P0J209 P0J2010 P0J2011
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P0J1029
P0J1030
P0J1031
P0J1032
P0J1033
P0J1034
P0J1035
P0J1036
P0J1037
P0J1038
lcd color monitor p15-1
P0C50
JP66
P0X706
LG P350
P0D2202
RC39
R40A
P0X408
P0C90
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PDF
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Untitled
Abstract: No abstract text available
Text: Isolated Flyback Converter; Input +3060V; Output 5V 100mA Reference Design PRD1139 FEATURES • • Input - Output isolation Primary side control for low cost and improved efficiency DESCRIPTION This is an 30 - 60V input isolated flyback converter based on the ADP1613 boost regulator IC with a "cascode"
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100mA
PRD1139
ADP1613
ADCMP356
ADP1613
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Pulse Jack J0011D21B
Abstract: j0011d21b X2 Schematics dp83848 application LPC2478 DAP IN INTERNATIONAL TRADE dp83848 LPC2478 pcb ECOL
Text: 1 2 3 These schematics are provided for reference only. For any designs based on these schematics always contact National Semiconductor Corporation BEFORE initiating PCB manufacturing and ask for your design to be reviewed. Copyright c 2004 National Semiconductor Corporation. All Rights Reserved. Unpublished rights reserved
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P0J2013
P0J2014
J0011D21B
P0C1501
P0C1502
P0C1601
P0C1602
P0C1701
P0C1702
P0C1801
Pulse Jack J0011D21B
j0011d21b
X2 Schematics
dp83848 application
LPC2478
DAP IN INTERNATIONAL TRADE
dp83848
LPC2478 pcb
ECOL
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PDF
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prxd2
Abstract: DP83640 SML-LXT0805GW-TR "half can" "oscillator" ECCM1 XTAL - 25M AFBR-5803
Text: 1 2 3 4 5 6 A A Crystal/ Oscillator Circuitry FX TRANSCEIVER B B RJ-45 GPIO Header MII/RMII Header Bottom Side LEDs Pin 1 ALP Connector MII Connector DP83640 USB Interface C C AN_EN AN1 AN0 AUTO-NEG FORCED MODES -0
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RJ-45
DP83640
10BASE-T
100BASE-TX
P0R8301
P0R8302
P0R16502
prxd2
DP83640
SML-LXT0805GW-TR
"half can" "oscillator"
ECCM1 XTAL - 25M
AFBR-5803
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PDF
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J34-J35
Abstract: B 342 Dc ml2020 panasonic battery capasitor QFN40P500X500X80-40N LP3971 ml2020 HEADER 8 PIN OSC-SMT DVM panel
Text: 1.0 Design Description The LP3971 Smart Power Board provides a complete, multirail solution for FPGAs, Microprocessors, or any other systems requiring multiple voltages, special power sequencing, and boot management. This solution utilizes the National Semiconductor LP3971 Power Management Unit and an 8 bit
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LP3971
RS-232
CSP-9-111S2)
CSP-9-111S2.
LP3971
J34-J35
B 342 Dc
ml2020 panasonic battery
capasitor
QFN40P500X500X80-40N
ml2020
HEADER 8 PIN
OSC-SMT
DVM panel
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PDF
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0.47uF
Abstract: psoc eval1 p10a P0J702
Text: 1 2 3 4 P0C101 16 C2- P0JP102 P16 C4 0.47uF,16V P0JP201 P0JP202 12 9 11 10 R1out P0U109 R2out P0U1011 T1in P0U1010 T2in 6 P0U106 V- P27 J5 R8 P11A P10A P0R802 P0R801 P0R902 P0R901 R9 1 P0J1402 2 P0J1403 3 P0J1404 4 P0J1405 5 VCC VCC Y1 32kHz DNP R1 1K J11
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P0C101
P0JP102
P0JP201
P0JP202
P0U109
P0U1011
P0U1010
P0U106
P0R802
P0R902
0.47uF
psoc eval1
p10a
P0J702
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PDF
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MAX3232CSE
Abstract: lm317 8 pines ADTG sot 23 p651 MB95F118 N0P35 lm317t P13 U4 INT05 P0C160
Text: 1 2 3 4 5 6 J2 P0J2044 P0J2046 P0J2048 P0J2050 B P0R1301 UI0 22pf 22pf C14 C15 Y2 P0Y202 1 2 P0Y201 1 2 P0JP7033 P0JP7044 N0P10 P10 Sub CLK 32KHz Default:3-4 INT02 C12 P0C1202 JP6 JP5 LIN Enable VCC VCC 2P0U202 EN 1 P0U201 RXD 4 P0U204 TXD 22uf 25v R11 22K
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P0J2044
P0J2046
P0J2048
P0J2050
P0R1301
P0Y202
P0Y201
P0JP7033
P0JP7044
N0P10
MAX3232CSE
lm317 8 pines
ADTG sot 23
p651
MB95F118
N0P35
lm317t
P13 U4
INT05
P0C160
|
PDF
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AMIS30663
Abstract: R40A TLE6250 P0JP6002 T679 P0C8802 P0U21020 P0D3302
Text: 1 2 3 4 5 6 7 8 J5A DB7 DB6 DB5 DB4 Pin[1.176] J3 P0J1029 P0J1030 P0J1031 P0J1032 P0J1033 P0J1034 P0J1035 P0J1036 P0J1037 P0J1038 P0J1039 P0J1040 P0J1041 P0J1042 P0J1043 P0J1044 CON44 J2 C P0J202 P0J203 P0J204 P0J205 P0J206 P0J207 P0J208 P0J209 P0J2010 P0J2011
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P0J1029
P0J1030
P0J1031
P0J1032
P0J1033
P0J1034
P0J1035
P0J1036
P0J1037
P0J1038
AMIS30663
R40A
TLE6250
P0JP6002
T679
P0C8802
P0U21020
P0D3302
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PDF
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P0C5502
Abstract: P0C3302 FDS8984 SP0503BAHTG si7892bdp T25 4 J6 P0L302 C8051F32 P0R2902 P0C4302
Text: 2 3 GND N0VIN VIN C74 0.01uF 50V N0VCCD VCCD CH1 BuckSupply_CH1 GND N0BST1 BST1 0805 10 OHM N0GH1 GH1 C25 16V 4.7uf LX1 N0GL1 GL1 39 P0R20102 VIN1 10 OHM C201 16V 22uF 0.4 OHM C77 0.01uF 50V N0AVDD AVDD T36 N0DVDD DVDD T37 37 1 2 USB_to_I2C USB_to_I2C GND
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P0R20102
P0U4032
P0U4033
P0U4034
P0U4035
P0U4036
P0U4012
P0U401
P0U4025
P0U4024
P0C5502
P0C3302
FDS8984
SP0503BAHTG
si7892bdp
T25 4 J6
P0L302
C8051F32
P0R2902
P0C4302
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PDF
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Pulse Jack J0011D21B
Abstract: LPC2478 pcb AN023 j0011d21b LPC2478 schematics OF TRANSFORMER tdtm P0C1102
Text: 1 2 3 These schematics are provided for reference only. For any designs based on these schematics always contact National Semiconductor Corporation BEFORE initiating PCB manufacturing and ask for your design to be reviewed. Copyright c 2004 National Semiconductor Corporation. All Rights Reserved. Unpublished rights reserved
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Cor012
P0J2013
P0J2014
J0011D21B
P0C1501
P0C1502
P0C1601
P0C1602
P0C1701
P0C1702
Pulse Jack J0011D21B
LPC2478 pcb
AN023
j0011d21b
LPC2478
schematics
OF TRANSFORMER
tdtm
P0C1102
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PDF
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VDD33
Abstract: P0C2102 VDD25 N0FPGA0VDD2505
Text: 2 3 R5 P0R3302 0.1uF P0D40A C16 LED D4 3.3V PowerSupply 10uF Ceramic 0805 VDD25_5 N0FPGA0VDD2505 FPGA_VDD25_5 C17 0.1uF P0C1702 P0C1701 LED C15 VDD25_5 P0R602 P0C1602 P0C1601 P0R3202 C14 D3 P0R601 P0C1502 P0C1501 R32 P0R3201 2.2K R33 P0R3301 2.2K 2.2K 2.2K
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P0R3302
P0D40A
N0FPGA0VDD2505
P0C1702
P0C1701
P0R602
P0C1602
P0C1601
P0R3202
P0R601
VDD33
P0C2102
VDD25
N0FPGA0VDD2505
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PDF
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header 7x2
Abstract: 470R HEADER7X2 470r 10% EMMA P0R2102 SM15T33A HEADER17X2
Text: 1 2 3 4 5 6 7 8 A A JP1 5 Vdc N0STATUS Status N0INPUT 8 Input 8 N05 VDC N0GND Gnd 1 P0JP103 3 P0JP105 5 P0JP107 7 P0JP109 9 P0JP1011 11 P0JP1013 13 P0JP1015 15 P0JP1017 17 P0JP1019 19 P0JP1021 21 P0JP1023 23 P0JP1025 25 P0JP1027 27 P0JP1029 29 P0JP1031 31
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P0JP103
P0JP105
P0JP107
P0JP109
P0JP1011
P0JP1013
P0JP1015
P0JP1017
P0JP1019
P0JP1021
header 7x2
470R
HEADER7X2
470r 10%
EMMA
P0R2102
SM15T33A
HEADER17X2
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PDF
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6Bp SMD
Abstract: 6BT SMD W17 marking code sot 23 marking w18 sot23-5 marking code E5 SMD ic sot23-5 smd marking e5 5Pin smd marking sot23 W16 smd transistor 6Bp sot marking code w17 Z5238BLT1
Text: • The user can use the on-board clock source or provide 1.0 Design Description their own clock source and operate the ADC under various sampling frequencies ■ The analog input has two ports, one for single-ended sources and one for differential sources
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CSP-9-111S2)
CSP-9-111S2.
RD-143
6Bp SMD
6BT SMD
W17 marking code sot 23
marking w18 sot23-5
marking code E5 SMD ic sot23-5
smd marking e5 5Pin
smd marking sot23 W16
smd transistor 6Bp
sot marking code w17
Z5238BLT1
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PDF
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