8 7 6 5 4 3 2 1 REVISIONS ZONE SYM DESCRIPTION DATE APPROVAL D D Schematic Subsections Trigger/Monitor/Multi-Purpose Header Connectors FMC 3.3V J2 EAV7 J1 3V3 0015916102 FPGA_GIO_LA30_N FPGA_GIO_HA22_N Page 3 Board/Device Identification ADC I2C_SCL I2C_SCL 4 I2C_SDA I2C_SDA 5 CA1 CH0 SCL CH1 8 9 10 EAV3 3 4 SMBUS_CLK_LM86 FPGA_GIO_HA13_N SS_N 5 6 I2C_SDA FPGA_GIO_HA17_N SCLK 7 8 SMBUS_DATA_LM86 R64 NO LOAD 9 10 MONITOR_2 R63 NO LOAD 2 7 I2C_SCL MOSI TRIGGER C 9 DEVICE_ID 10 BOARD_TYPE 11 BOARD_REVISION 2 2 1 R59 R65 1 Sensor SMBUS Temperature Monitoring Diode Connections Tdie = (0.77-Vdiode at bias 40 uA)/0.00158°C 3V3 3V3 2 SDA CH3 GND 6 GND 15 3.0K 1% 7 COM 1 SMBUS_DATA_LM86 Board Type Board Revision R61 R60 do not pop 2 SMBUS_CLK_LM86 B 3V3 1 FMC 3.3V C119 0.1UF 2 1 1.2K R47 1% To FMC 1 3V3 1.2K R46 1% 1 ADC_CH0 2 1 R62 2 8 R66 C156 14 CA0 CH2 A 6 2 1 3 13 3V3 10.0Kohm 1% 2 Vref- 12 1 3V3 10.0Kohm 1% JMP1 Fo 0.1UF 10.0Kohm 1% To FMC Vref+ 1 3V3 3V3 1 VCC B 5 1 FMC 3.3V U15 LTC2487IDE#PBF 3V3 4 MISO Pages 5-9 10.0Kohm 1% Page 2 3 EAV6 1 MONITOR_1 2 2 C Python xK Sensor 1 2 FMC Interface MONITOR_0 EAV4 EAV5 1 Power 2 0015916102 To SENSOR U11 VDD 2 TD_ANODE D+ 7 EAV1 EAV2 3 SMB_D TD_CATHODE D- 8 6 SMB_C ALERT 4 GND CRIT_A 5 LM86 TV7 TV6 2 Board Top Level Board Hardware and Mounting Holes UNLESS OTHERWISE SPECIFIED MATERIAL WHERE TOTAL TOLERANCE OS .001 DIM. ARE IN LOGO1 ON Semiconductor Logo Eval Kit Lens Mount holes Plated 95 Drill N9 PCB1 N5 N10 N6 Mounting Holes N12 N13 N1 N3 N2 Bare Board 43020000 Rev 1 Board Assembly Fiducials T.E. Module Mount holes Plated 95 Drill N8 NFM1 NFM3 NFM5 N11 N7 N4 NFM2 NFM4 NFM6 NEXT ASSY USED ON APPLICATION 8 7 6 + - 3 PL DEC TOL + - ANGULAR TOL 5 NEXT ASSY FINAL ASSY QUANITY REQD 4 ON Semiconductor INCHES OR LESS AND ON ALL 2 PL DEC TOL + - A DIMENSIONS APPLY AFTER FINISH THREADS. IN ALL OTHER PLACES DIMENSIONS APPLY BEFORE FINISH. NAME DR FINISH PYTHON xK FMC REFERENCE PCB QA CHK SURF ROUGHNESS ENGR EDGES ENGR INSIDE RADII ECN NO. Brian Tobey SIZE D DEVIATIONS FROM INTENDED SHAPE (FLATNESS,ROUNDNESS,SQUARENESS ETC.) MUST BE WITHIN STATED DIMENSIONAL TOLERANCES. 3 REL DATE 01/19/2015 SCALE 2 DWG NO. PCB # 43020000 REV 1 ASSEM # 43020001 REV 1 PROGRAM CADSTAR SHEET 1 1 of 9 8 7 6 5 4 3 2 1 REVISIONS ZONE SYM DESCRIPTION DATE APPROVAL NOTE: SOME GROUND PINS DISCONNECTED DUE TO LAYOUT ROUTING RESTRICTIONS D D J3-A SEAM-40-01-S-10-2-RA-K-TR J3-B SEAM-40-01-S-10-2-RA-K-TR J3-C SEAM-40-01-S-10-2-RA-K-TR J3-D SEAM-40-01-S-10-2-RA-K-TR 3V3 3V3 +12V A2 DP1_M2C_P A3 DP1_M2C_N A6 DP2_M2C_P A7 DP2_M2C_N A10 DP3_M2C_P A11 DP3_M2C_N A14 DP4_M2C_P A15 DP4_M2C_N A18 DP5_M2C_P A19 DP5_M2C_N A22 A23 DP1_C2M_N A1 GND A4 GND B1 CLK_DIR GND B2 B4 DP9_M2C_P GND B3 A5 B5 DP9_M2C_N GND B6 GND A8 B8 DP8_M2C_P GND B7 GND A9 B9 DP8_M2C_N GND B10 GND A12 B12 DP7_M2C_P GND B11 GND A13 B13 DP7_M2C_N GND B14 GND A16 B16 DP6_M2C_P GND B15 DOUT1_P GND A17 B17 DP6_M2C_N GND B18 DOUT1_N GND A20 GND B19 DOUT15_P GND A21 B20 GBTCLK1_M2C_P GND B22 DOUT15_N GND A24 B21 GBTCLK1_M2C_N GND B23 DOUT29_P GND A25 GND B26 DOUT29_N FPGA_GIO_LA30_N 3V3 GND A28 B24 DP9_C2M_P GND B27 DP2_C2M_N GND A29 B25 DP9_C2M_N GND B30 DP3_C2M_P GND A32 B28 DP8_C2M_P GND B31 A31 DP3_C2M_N GND A33 B29 DP8_C2M_N GND B34 GND A36 B32 DP7_C2M_P GND B35 GND A37 B33 DP7_C2M_N GND B38 GND A40 B36 DP6_C2M_P GND B39 A26 C DP1_C2M_P GND A27 A30 A34 A35 DP2_C2M_P DP4_C2M_P DP4_C2M_N A38 DP5_C2M_P A39 DP5_C2M_N C2 DP0_C2M_P C3 DP0_C2M_N 12P0V C35 12P0V C37 C6 DP0_M2C_P C7 DP0_M2C_N LAYOUT RESTR 3P3V A C39 DOUT0_P DOUT0_N C10 LA06_P C11 LA06_N C14 LA10_P C15 LA10_N C18 LA14_P C19 LA14_N C22 Vdda_33_enable B CLOCK_IN_N Diff Pair GiGaBiT INTREFACE NOT SUPPORTED CLOCK_IN_P D8 LA01_CC_P D9 LA01_CC_N D36 CLOCK_OUT_N 3P3V D38 CLOCK_OUT_P 3P3V D40 D32 3P3VAUX E2 HA01_P_CC GND E1 E3 HA01_N_CC GND E4 DOUT3_P E6 HA05_P GND E5 E7 HA05_N GND E8 E9 HA09_P GND E11 DOUT5_N E10 HA09_N GND E14 E12 HA13_P GND E17 E13 HA13_N GND E20 D11 LA05_P DOUT11_N D12 LA05_N D14 LA09_P DOUT11_P DOUT18_P GND C4 DOUT18_N GND C5 DOUT22_P GND C8 DOUT22_N GND C9 GND C12 MONITOR_1 D23 MONITOR_0 LAYOUT RESTR DOUT3_N DOUT9_N C1 SW DOUT5_P DOUT9_P GND SW E15 HA16_P GND E23 D15 LA09_N D17 LA13_P E16 HA16_N GND E26 E18 HA20_P GND E29 D18 LA13_N E19 HA20_N GND E32 GND E35 D20 PG_C2M D1 LA17_CC_P GND D2 E21 HB03_P GND E38 LA23_P GND D3 E22 HB03_N GND E40 D24 LA23_N GND D6 E24 HB05_P C17 D26 LA26_P GND D7 E25 HB05_N GND C20 D27 GND D10 E27 HB09_P GND C21 GND D13 GND C24 GND D16 GND C25 GND C28 GND C29 SCL GND C32 D31 TDO D33 TMS C31 SDA GND C33 D34 GND C36 GND C38 GND C40 LA18_CC_P C23 LA18_CC_N GND C13 C26 LA27_P GND C16 C27 LA27_N GND C30 SW 3P3V 3V3 B37 DP6_C2M_N B40 RES0 D4 GBTCLK0_M2C_P D5 GBTCLK0_M2C_N J3-E SEAM-40-01-S-10-2-RA-K-TR C34 GA1 C D21 LA17_CC_N FMC_TDI_TDO_CONN LA26_N E28 HB09_N SS_N E30 HB13_P D29 TCLK GND D19 D30 TDI GND D22 E33 GND D25 E34 GND D28 E36 GND D37 E37 GND D39 D35 TRST_L GA1 C SCLK E31 HB13_N E39 D HB19_P HB19_N HB21_P HB21_N VADJ E SW Move 1 3V3 J3-G SEAM-40-01-S-10-2-RA-K-TR J3-F J3-H SEAM-40-01-S-10-2-RA-K-TR 3V3 SEAM-40-01-S-10-2-RA-K-TR SYNC_N DOUT2_P DOUT2_N DOUT7_P DOUT7_N F7 HA04_P F8 HA04_N F10 HA08_P F11HA08_N F13 HA12_P F14 HA12_N F16 HA15_P F17 HA15_N B F19 HA19_P F20 HA19_N F3 GND F6 0 GND F9 DOUT4_P GND F12 DOUT4_N GND F15 GND F18 GND F21 GND F24 GND F27 DOUT20_P GND F30 DOUT20_N GND F33 DOUT24_P GND F36 DOUT24_N GND F39 SMBUS_DATA_LM86 2 GND R67 G12 LA08_P G13 LA08_N F22 HB02_P MUXMODE_0 F23 HB02_N MONITOR_2 F25 HB04_P Enable_vdd_casc F26 HB04_N NC_TRIGGER_1 F28 HB08_P MOSI F29 HB08_N ADC_MODE F31 HB12_P Enable_5V F32 HB12_N Enable_VDDD_18 F34 MUXMODE_1 F35 F37 F38 F40 G6 LA00_CC_P G7 LA00_CC_N G9 LA03_P G10 LA03_N SMBUS_CLK_LM86 RESET_N G2 CLK1_M2C_P G3 CLK1_M2C_N G15 LA12_P G16 LA12_N G18 LA16_P G19 LA16_N G21 LA20_P G22 LA20_N G24 LA22_P G25 LA22_N G1 H1 VREF_A_M2C GND G4 GND G5 GND G8 GND G11 H4 GND G14 H5 GND G17 GND G20 GND G23 DOUT6_N GND G26 I2C_SCL GND G29 GND G32 DOUT13_P GND G35 DOUT13_N GND G38 DOUT19_P GND G40 DOUT19_N 3V3 DOUT6_P Board/Device Identification ADC I2C_SDA CLK3_BDIR_P GND J1 GND H6 J3 CLK3_BDIR_N GND J4 GND H9 GND J5 GND H12 DOUT8_P J6 GND J8 CLK0_M2C_P GND H15 DOUT8_N J7 HA03_N GND J11 CLK0_M2C_N GND H18 DOUT12_P J9 HA07_P GND J14 DOUT10_P GND H21 DOUT12_N GND J17 DOUT10_N GND H24 DOUT16_P GND J20 DOUT14_P GND H27 DOUT16_N GND J23 DOUT14_N GND H30 GND J26 DOUT17_P GND H33 GND J29 DOUT17_N GND H36 GND J32 GND H39 GND J35 GND J38 DOUT21_P GND J40 DOUT21_N H2 PRSNT_M2C_L G30 LA29_P G31 LA29_N H25 H23 G J13 HA11_N J15 HA14_P K1 VREF_B_M2C 3V3 K4 K5 LAYOUT RESTR GND K2 GND K3 CLK0_M2C_P GND K6 CLK0_M2C_N GND K9 GND K12 GND K15 GND K18 GND K21 GND K24 GND K27 GND K30 GND K33 GND K36 K7 HA02_P K8 HA02_N K10 HA06_P K11 HA06_N K13 HA10_P K14 HA10_N K16 HA17_P K17 HA17_N K19 HA21_P K20 HA21_N J22 HA22_N DOUT23_P J24 HB01_P K22 HA23_P DOUT23_N J25 HB01_N K23 HA23_N LA19_P DOUT25_P J27 HB07_P LA19_N DOUT25_N J28 HB07_N K25 HB00_P FPGA_GIO_HA13_N J30 HB11_P K26 HB00_N K28 HB06_P FPGA_GIO_HA22_N J31 HB11_N J33 HB15_P K29 HB06_N LA21_P H26 LA21_N Enable_Other_Pwr H28 LA24_P MISO H29 J34 HB15_N DOUT28_P J36 HB18_P DOUT28_N J37 HB18_N LA24_N H31 LA28_P H32 LA28_N G39 VADJ J10 HA07_N J12 HA11_P J19 H18_N J21 HA22_P H19 LA15_P H20 LA15_N H22 HA03_P J16 HA14_N J18 HA18_P H16 LA11_P H17 LA11_N G27 LA25_P G28 LA25_N F J2 H13 LA07_P H14 LA07_N DOUT26_N HB20_P HB20_N H3 H10 LA04_P H11 LA04_N G36 LA33_P G37 LA33_N HB16_N J3-J SEAM-40-01-S-10-2-RA-K-TR GND H7 LA02_P H8 LA02_N DOUT26_P G33 LA31_P G34 LA31_N HB16_P VADJ GND 2 F4 HA00_P_CC F5 HA00_N_CC Move 2 R68 F2 1 SYNC_P 0 GND 1 F1 PG_M2C J3-I SEAM-40-01-S-10-2-RA-K-TR DOUT27_P H34 LA30_P DOUT27_N H35 LA30_N DOUT31_P H37 LA32_P DOUT31_N H38 LA32_N J39 FPGA_GIO_HA17_N K31 HB10_P K32 HB10_N TRIGGER VIO_B_M2C GND B K39 K34 HB14_P Enable_VDDD_33 K35 HB14_N DOUT30_P K37 HB17_P DOUT30_N K38 HB17_N J K40 VIO_B_M2C H40 VADJ K H FMC Connector A UNLESS OTHERWISE SPECIFIED MATERIAL DIMENSIONS APPLY AFTER FINISH WHERE TOTAL TOLERANCE OS .001 DIM. ARE IN 2 PL DEC TOL + - 3 PL DEC TOL + - ANGULAR TOL NEXT ASSY USED ON APPLICATION 8 7 6 5 NEXT ASSY FINAL ASSY QUANITY REQD 4 ON Semiconductor INCHES OR LESS AND ON ALL + - THREADS. IN ALL OTHER PLACES DIMENSIONS APPLY BEFORE FINISH. NAME DR FINISH PYTHON xK FMC REFERENCE PCB QA CHK SURF ROUGHNESS ENGR EDGES ENGR INSIDE RADII ECN NO. Brian Tobey SIZE D DEVIATIONS FROM INTENDED SHAPE (FLATNESS,ROUNDNESS,SQUARENESS ETC.) MUST BE WITHIN STATED DIMENSIONAL TOLERANCES. 3 REL DATE 01/19/2015 SCALE 2 DWG NO. PCB # 43020000 REV 1 ASSEM # 43020001 REV 1 PROGRAM CADSTAR SHEET 1 2 of 9 A 8 7 6 5 4 3 2 1 REVISIONS +5V TP1 ZONE 1 CR2 K A 8 1N4148W 2 4 VIN SHDN_5v 5 SHDNB R5 2 1 0 R4 20K 1% C5 1nF 2 VSW GND 8 1 2 2 VFB 6 CR1 10BQ030PBF R2 294 1% 2 U4 1.2K 1% 4 2 2 1 1 2 1 C116 68PF 0.1UF 2 2 8 1 2 -5V 7 R9 C9 10UF 16V 6 1 2 1 Enable_VDDD_33 1 2 Vref_colmux is a sinking/sourcing supply ~1.0V @ ?? mA - 5 V+ 2 3 + 5 4 - R23 V+ 1 U6 1 R22 806 1% B 2 R21 2K 1% 2 1 2 1 OUT SD 1 3 SEN/ADJ GND 5 C117 10UF 16V 1 2 >= 1 uF Any Type Recommended 2 B Enable_Other_Pwr -5V 4.2V ~30 mA (5V-4.2V)*50 mA = 0.040W Micro 8 is ~200 C/W Junction to Amb = 8C junction rise LDO Micro-8 ADJ 4.2V ~30 mA +5V TP3 +Vhigh U8 Analog NCP3335ADMADJR2G >= 1 uF Any Type Recommended Vdda_33 = Analog 3.3V ~900 mA 3V3 TV9 A Vdda_33_enable 1 2 0 1 8 1 2 R56 20K 1% C155 1nF 2 GND 1 C154 100nF 2 6 VFB 1 -12V TV11 +18V SD NR 2 SEN/ADJ GND 5 1 1 3 Vfb_Vhigh 2 1 4 1 C105 10nF 2 2 C69 10UF 16V 2 Vfb = 1.25V 1 R31 20K 1% >= 1 uF Any Type Recommended 2 TV10 POWER R58 160 1% FMC Connector 3.3V & 12V UNLESS OTHERWISE SPECIFIED Min Load Current of 12mA is required 1 + - 3 PL DEC TOL + - ANGULAR TOL 2 NEXT ASSY USED ON APPLICATION 6 5 NEXT ASSY FINAL ASSY QUANITY REQD 4 ON Semiconductor INCHES OR LESS AND ON ALL 2 PL DEC TOL + - A DIMENSIONS APPLY AFTER FINISH WHERE TOTAL TOLERANCE OS .001 2 SW_VFB_3v3 MATERIAL DIM. ARE IN R57 100 1% 7 OUT 1 C70 68PF 1 10uH Vfb = 1.27V 8 NO LOAD IN R30 47K 3.3V, 12V, 18V, & -12V 2 CR6 10BQ030PBF 7 1 OUT Auxillary Power Connector L2 K VC 6 R37 0 TV12 A R55 2 7 R32 IN 1 2 Sensor 4.2V ~10 mA VDD_resfd ~10 mA VDD_calib ~10 mA VDD_sel/Vita_VDD_respd 2 1N4148W C147 100nF 3 VSW VSW_3v3 SHDNB 2 1 5 BIAS BOOST 4 2 SHDN_3v3 1 3 VIN 4 6 4 U14 2 CS51414 5 2 1 1 A 7 K 3 8 6 2 2 BOOST_3v3 R54 NO LOAD 5 10 8 C153 100nF 7 9 C157 10UF 20V TV14 11 2 C158 10UF 20V 2 -12V C159 100UF 9 12 10 1 CR4 11 12 TV13 A 1N4148W 1 3V3 C71 10UF 16V +18V K 1 +12V 2 BIAS_3v3 1 J4 MMT-106-02-F-DH +12V CR5 +12V 8 1 VDDA_33 TP6 1 LDO Micro-8 3.3V Sensor ~60 mA VDD_pix ~20 ma VDD_trans/Vita_VDD_sel 1 4 C104 10nF 2 0.1UF 2 IN NR R38 0 -5V 2 OUT U10 2 NO LOAD 0.1UF 2 6 1 IN TP4 TV4 C24 C48 68PF C67 C68 68PF 7 R45 C118 10UF 16V VREF_SPARE 2 2 3.0K 1% 2 1 8 1 LM8261M5 V- + 1 VREF_COLMUX VDD_pix 1 1 2 3 1 1 R27 2K 1% 2 TV3 >= 1 uF Any Type Recommended NCP3335ADM330R2G >= 1 uF Any Type Recommended LM8261M5 V- 2 Vref_spare is a sinking ground ref ~0.4V (or ~1.0V) 1 2 0.1UF 1 U7 1 1 2 R28 3.0K 1% C26 10UF 16V 2 3.3V ~80 mA (5V-3.3V)*100 mA = 0.170W Micro 8 is ~200 C/W Junction to Amb = 34C junction rise +5V 4 +5V 1 4 +5V 0.1UF R24 3 SEN/ADJ GND 2 C103 VREF_2P5_OTHER C25 SD 5 R7 20K 1 1% C17 10nF 2 1 OUT LDO Micro-8 3.3V Sensor VDDD_33 ~100 mA 2 1.2K 1% 1.2K 1% IN TP2 2 OUT U5 R29 3 2 IN NR NO LOAD 0 R8 3.0K 1% VDDD_33 NCP3335ADM330R2G >= 1 uF Any Type Recommended C101 5 NLX2G14AMX1TCG 2 1 1 1 R40 2K 1% 2 MCH6603 Q1-B 4 2 R16 U3 R14 10.0Kohm 1% R15 10.0Kohm 1% 1 LM8261M5 V- + Switched 2.5V references for OpAmps 6 1 1 3.0K 1% 3 3.0K 1% 3.3V ~100 mA (5V-3.3V)*120 mA = 0.204W Micro 8 is ~200 C/W Junction to Amb = 40C junction rise +5V V+ U9 2 1 2 2 2 1 5 VREF_2P5_CASC Q1-A MCH6603 C VDD_casc 5 Analog R41 R17 3 2 1.0V ~1 mA?? 0.1UF - (Enable_Other_Pwr) 2 +5V C102 2 1 C146 100UF 6 Min Load Current of 5mA is required R42 4 Enable_vdd_casc R51 294 2 1% 1 R49 20K 1% 0 2 3V3 0.1UF C15 3 >= 47 uF Ceramic Recommended 5 FLG TAB GND NO LOAD 2 3 2 R48 C8 0.1UF GND SOT-23-3 2 1 1 U13 1 VREF_2P5 REF3025 VOUT EN 1 LDO D2PAK-5 1.8V Sensor VDDD_18 ~500 mA 1 Vout 4 VIN 1 1 2 TP5 1 R50 C121 10UF 16V R3 100 1% 1 C >= 1 uF Ceramic Recommended 2 6 FMC 3.3V 2 1 Min Load Current of 12mA is required SW_VFB_5v VDDD_18 NCV59151DS18R4G 2 C6 100nF 1.8V ~500 mA (3.3V-1.8V)*600 mA = 0.9W D2PAK-5 is 52 C/W Junction to Amb = 47C junction rise 3V3 Locate CAT660 Close to the 5V converter output bulk capacitor 1 10uH 2.5V reference Vin C16 0.1UF FMC 3.3V 3 CAT660 Enable_VDDD_18 Texas Instr Recommends >= 0.47uF if >= 10Hz noise critical 1 CAP- 2 Vfb = 1.27V 1 2 4 GND 2 1 7 1 1 C4 NOLOAD D C11 100UF LV L1 3 OSC 6 2 A 1 Enable_5V VC C2 100nF 1 BIAS BOOST C1 100UF 1N4148W 1 U1 2 CS51414 A 1 7 NO LOAD 1 R6 NO LOAD 2 CAP+ 1 K -5V 2 BOOST/FC 1 C7 100nF U2 1 2 2 2 C14 10UF 20V APPROVAL VOUT R1 2 BOOST_5v 1 C3 0.1UF 1 2 C13 10UF 20V 2 1 K D 1 DATE 2 5 V+ 1 CR3 1 DESCRIPTION C12 100UF BIAS_5v +12V SYM THREADS. IN ALL OTHER PLACES DIMENSIONS APPLY BEFORE FINISH. NAME DR FINISH PYTHON xK FMC REFERENCE PCB QA CHK SURF ROUGHNESS ENGR EDGES ENGR INSIDE RADII ECN NO. Brian Tobey SIZE D DEVIATIONS FROM INTENDED SHAPE (FLATNESS,ROUNDNESS,SQUARENESS ETC.) MUST BE WITHIN STATED DIMENSIONAL TOLERANCES. 3 REL DATE 01/19/2015 SCALE 2 DWG NO. PCB # 43020000 REV 1 ASSEM # 43020001 REV 1 PROGRAM CADSTAR SHEET 1 3 of 9 8 7 6 5 4 3 2 1 REVISIONS Socketed PYTHON xK The Device is a 355 pin uPGA so all pins are accessible Recommended Sensor Socket: Andon Electronics Corporation (www.andonelectronics.com) 10-31-13A-355-400T4-R27-L14 D ZONE SYM DESCRIPTION DATE APPROVAL D Sensor Control and Misc I/O Gate A Digital I/O is 3/3.3V CMOS per JEDEC Standard (JEDEC-JESD8C-01) Page 5 CLOCK_IN_N 2 1 100R LVDS I/O is LVDS (EIA/TIA-644) with additional specifications and deviations listed in Publication Order Number: NOIP1SN010KA/D Sensor LVDS Gate B R53 The LVDS clock input needs to be terminated with a 100 ohm resistor. CLOCK_IN_P Page 6 Connect this to 47K to GNDA_33 reference Temperature Monitoring Diode Connections Tdie = (0.77-Vdiode at bias 40 uA)/0.00158°C IBIAS_MASTER Sensor Analog and Spare I/O Gate C 1 2 R52 TD_CATHODE TD_ANODE 47K 1.0V ~1 mA?? C Page 7 VDD_casc 2 C100 10UF 16V 1 1 C66 0.1UF 1 C62 0.1UF 2 2 2 1 C99 0.1UF 1.8V ~500 mA C98 0.1UF VDDD_18 Vdd_casc VREF_COLMUX 1 Vref_colmux is a sinking/sourcing supply ~1.0V @ ?? mA 2 C49 10UF 16V 1 1 C54 0.1UF 1 C55 0.1UF 2 2 2 Digital Sensor Power Gate D 2 1 C59 0.1UF 2 C22 10UF 16V 2 1 C145 1 0.1UF C124 1 0.1UF 2 2 2 1 C27 0.1UF 1 C41 0.1UF 1 C43 0.1UF C144 1 0.1UF 2 2 2 2 1 C28 0.1UF 1 C29 0.1UF 2 C42 0.1UF 2 Vddd_18 Page 8 C58 0.1UF 1 Substrate Connection vs NOT connected? 3.3V domain vs 1.8V domain? Analog vs digital designations? High current column bias and precharge? VREF_RESFD TV5 TV2 1 Sensor Ground Gate E VREF_SEL TV8 1 VREF_CALIB 1 1 TV1 R18 Page 9 TBD Number of separate 0.0V(?) Ground references VREF_TRANS 0 2 0 0 2 R11 1 LDO D2PAK-5 1.8V R33 Analog R19 C 0 2 Non-Zero Sinking Supplies? or Ground... By default each VREF has 3 resistors to Ground. Replace with 10 uF capacitors if Non-Zero. 2 Vdd_resfd 1 2 R26 2 C65 10UF 16V 1 1 C60 0.1UF 1 C63 0.1UF 2 2 2 1 C61 0.1UF VREF_RESFD C64 R25 0.1UF 2 LDO Micro-8 3.3V 3.3V ~100 mA 2 1 1 4.2V VDDD_33 0 1 2 Vdd_calib 1 4.2V ~30 mA 1 2 R12 +Vhigh 2 C10 10UF 16V 1 1 C21 0.1UF 1 C20 0.1UF 2 2 2 1 C18 0.1UF VREF_CALIB C19 R10 0.1UF 2 C120 10UF 16V 1 1 C57 0.1UF C123 1 0.1UF 2 2 2 1 C53 0.1UF C143 1 0.1UF C142 1 0.1UF 1 C56 0.1UF 2 2 2 2 C122 1 0.1UF C52 0.1UF 2 B Vddd_33 2 B Digital 1 4.2V LDO Micro-8 ADJ 0 Analog Analog 4.2V 4.2V 0 1 1 0 LDO Micro-8 3.3V 4.2V 3.3V ~60 mA 2 1 1 C47 0.1UF 1 C46 0.1UF 2 2 2 1 C44 0.1UF VREF_TRANS C45 0.1UF R13 2 0 0 2 1 2 1 2 R20 C23 10UF 16V 1 1 2 PYTH R44 NO LOAD R43 0 3.3V VITA VDD_pix DCDC SOIC-8 3.3V 1 2 C151 10UF 16V 1 C127 1 0.1UF C128 1 0.1UF 2 2 2 C141 1 0.1UF VDDA_33 C140 0.1UF Analog 2 1 1 C96 0.1UF 1 C97 0.1UF 2 2 2 1 C93 0.1UF 2 C94 0.1UF 3.3V NOTE: 3.3V VDD_pix Vita xK Swap R34 1 2 0 2 A C150 10UF 16V C137 0.1UF 2 1 C125 0.1UF 2 1 1 C32 0.1UF 1 C35 0.1UF 2 2 2 C40 10UF 16V 1 1 C92 0.1UF C109 1 0.1UF 2 2 2 C112 10UF 16V 1 1 C78 0.1UF 1 C75 0.1UF 2 2 2 C107 10UF 16V 1 1 C82 0.1UF 1 C79 0.1UF 2 2 2 1 C30 0.1UF C110 1 0.1UF 1 C38 0.1UF 1 C39 0.1UF 2 2 2 C113 1 0.1UF C115 1 0.1UF 1 C31 0.1UF 2 2 2 1 C85 0.1UF 1 C87 0.1UF 1 C89 0.1UF 2 2 2 1 C83 0.1UF 1 C73 0.1UF 1 C80 0.1UF 2 2 2 2 C114 1 0.1UF C106 1 0.1UF 2 2 1 C72 0.1UF C51 0.1UF 2 C111 1 0.1UF 2 1 C34 0.1UF 1 C36 0.1UF 2 2 1 C33 0.1UF C37 0.1UF 2 LDO Micro-8 3.3V 1 4.2V +Vhigh Vdd_pix is an Analog 3.3V for Python xK so we will use the same supply. 2 C108 1 0.1UF 2 1 C91 0.1UF 1 C86 0.1UF 2 2 1 C88 0.1UF C90 0.1UF 2 2 1 Vdd_trans 1 1 VREF_SEL 3.3V ~900 mA 1 C50 10UF 16V 2 Analog Vdda_33 R39 C95 10UF 16V 0 3.3V 2 1 Vdd_sel 1 2 2 Vdd_trans Vdd_sel = 4.2V ~1 mA?? Vita xK is 3.3V Vdd_sel VDD_SEL 1 Analog 1 VDD_TRANS PYTH 2 VITA VDD_pix R36 0 1 Vdd_trans = 3.3V ~10 mA Vita xK is 4.2V Vdd_respd R35 NO LOAD C152 0.1UF 2 1 Vdd_sel 2 C139 0.1UF 1 C76 0.1UF 2 1 C77 0.1UF 1 C74 0.1UF 2 2 1 C84 0.1UF C81 0.1UF 2 2 Sensor Top Level 1 2 C149 10UF 16V 1 C129 0.1UF 2 1 C135 0.1UF 2 1 C126 0.1UF 2 1 C131 0.1UF 2 1 UNLESS OTHERWISE SPECIFIED C133 0.1UF WHERE TOTAL TOLERANCE OS .001 2 2 C148 10UF 16V 1 2 C134 0.1UF 1 2 C136 0.1UF 1 2 C138 0.1UF 1 2 C130 0.1UF 1 C132 0.1UF 2 NEXT ASSY USED ON APPLICATION 8 7 6 5 NEXT ASSY FINAL ASSY QUANITY REQD 4 ON Semiconductor INCHES OR LESS AND ON ALL 2 PL DEC TOL + - 3 PL DEC TOL + + - A DIMENSIONS APPLY AFTER FINISH DIM. ARE IN ANGULAR TOL 1 MATERIAL THREADS. IN ALL OTHER PLACES DIMENSIONS APPLY BEFORE FINISH. NAME DR FINISH PYTHON xK FMC REFERENCE PCB QA CHK SURF ROUGHNESS ENGR EDGES ENGR INSIDE RADII ECN NO. Brian Tobey SIZE D DEVIATIONS FROM INTENDED SHAPE (FLATNESS,ROUNDNESS,SQUARENESS ETC.) MUST BE WITHIN STATED DIMENSIONAL TOLERANCES. 3 REL DATE 01/19/2015 SCALE 2 DWG NO. PCB # 43020000 REV 1 ASSEM # 43020001 REV 1 PROGRAM CADSTAR SHEET 1 4 of 9 8 7 6 5 4 3 2 1 REVISIONS ZONE SYM DESCRIPTION DATE APPROVAL D D Digital I/O is 3/3.3V CMOS per JEDEC Standard (JEDEC-JESD8C-01) U12-A Test Only Do Not Connect C NO_CONNECT_1 NO_CONNECT_2 Analog Test Inputs D1 A2 MBS1_OUT MBS2_OUT ADC_DOUT10 D3 NO_CONNECT_4 ADC_DOUT9 C3 NO_CONNECT_5 NO_CONNECT_6 ADC_DOUT8 G1 G8 MBS3_IN ADC_DOUT7 G2 NO_CONNECT_7 G9 MBS4_IN ADC_DOUT6 F2 NO_CONNECT_8 ADC_DOUT5 D2 NO_CONNECT_9 NO_CONNECT_10 SS_N D25 SS_N ADC_DOUT4 E2 MOSI D24 MOSI ADC_DOUT3 F1 ADC_DOUT2 B3 NO_CONNECT_12 A3 NO_CONNECT_13 E1 NO_CONNECT_14 MISO D23 MISO SCLK E24 SCLK TRIGGER E23 RESET_N E25 ADC_DOUT1 ADC_DOUT0 Test Only - Do Not Connect NO_CONNECT_3 G3 ADC_MODE H22 ADC_MODE MONITOR0 G25 MONITOR_0 RESET_N AFE_CLK MONITOR1 MONITOR2 SCAN_CLK MUXMODE_0 F25 MUXMODE0 MUXMODE_1 F24 MUXMODE1 F23 SCAN_IN2 H21 NO_CONNECT_11 TRIGGER G22 Scan Chain Disabled C G24 MONITOR_1 G23 MONITOR_2 TEST_ENABLE Sensor Control and Misc I/O B B Sensor Control and Misc I/O A UNLESS OTHERWISE SPECIFIED MATERIAL WHERE TOTAL TOLERANCE OS .001 DIM. ARE IN + - 3 PL DEC TOL + - ANGULAR TOL NEXT ASSY USED ON APPLICATION 8 7 6 5 NEXT ASSY FINAL ASSY QUANITY REQD 4 ON Semiconductor INCHES OR LESS AND ON ALL 2 PL DEC TOL + - A DIMENSIONS APPLY AFTER FINISH THREADS. IN ALL OTHER PLACES DIMENSIONS APPLY BEFORE FINISH. NAME DR FINISH PYTHON xK FMC REFERENCE PCB QA CHK SURF ROUGHNESS ENGR EDGES ENGR INSIDE RADII ECN NO. Brian Tobey SIZE D DEVIATIONS FROM INTENDED SHAPE (FLATNESS,ROUNDNESS,SQUARENESS ETC.) MUST BE WITHIN STATED DIMENSIONAL TOLERANCES. 3 REL DATE 01/19/2015 SCALE 2 DWG NO. PCB # 43020000 REV 1 ASSEM # 43020001 REV 1 PROGRAM CADSTAR SHEET 1 5 of 9 8 7 6 5 4 3 2 1 REVISIONS ZONE SYM DESCRIPTION DATE APPROVAL D D LVDS I/O is LVDS (EIA/TIA-644) with additional specifications and deviations listed in Publication Order Number: NOIP1SN010KA/D U12-B The clock input needs to be terminated with a 100 ohm resistor. C B CLOCK_IN_N B24 CLOCK_IN_P B23 CLOCK_INN CLOCK_INP SYNC_N E21 SYNCN SYNC_P D21 SYNCP CLOCK_OUTP D5 CLOCK_OUT_P CLOCK_OUTN E5 CLOCK_OUT_N DOUT0_N E20 DOUTN0 DOUTP16 C13 DOUT16_P DOUT0_P D20 DOUTP0 DOUTN16 B13 DOUT16_N DOUT1_N C21 DOUTN1 DOUTP17 B12 DOUT17_P DOUT1_P B21 DOUTP1 DOUTN17 C12 DOUT17_N DOUT2_N E19 DOUTN2 DOUTP18 E12 DOUT18_P DOUT2_P D19 DOUTP2 DOUTN18 D12 DOUT18_N DOUTN3 DOUTP19 C11 DOUT19_P DOUTN19 B11 DOUT19_N DOUT3_N B20 DOUT3_P C20 DOUTP3 DOUT4_N C19 DOUTN4 DOUTP20 E11 DOUT20_P DOUT4_P B19 DOUTP4 DOUTN20 D11 DOUT20_N DOUT5_N E18 DOUTN5 DOUTP21 C10 DOUT21_P DOUT5_P D18 DOUTP5 DOUTN21 B10 DOUT21_N DOUT6_N C18 DOUTN6 DOUTP22 E10 DOUT22_P DOUT6_P B18 DOUTP6 DOUTN22 D10 DOUT22_N DOUT7_N E17 DOUTN7 DOUTP23 C9 DOUT23_P DOUT7_P D17 DOUTP7 DOUTN23 B9 DOUT23_N DOUT8_N C17 DOUTN8 DOUTP24 E9 DOUT24_P DOUT8_P B17 DOUTP8 DOUTN24 D9 DOUT24_N DOUT9_N E16 DOUTN9 DOUTP25 C8 DOUT25_P DOUT9_P D16 DOUTP9 DOUTN25 B8 DOUT25_N DOUT10_N C16 DOUTN10 DOUTP26 E8 DOUT26_P DOUT10_P B16 DOUTP10 DOUTN26 D8 DOUT26_N DOUT11_N E15 DOUTN11 DOUTP27 C7 DOUT27_P DOUT11_P D15 DOUTP11 DOUTN27 B7 DOUT27_N DOUT12_N C15 DOUTN12 DOUTP28 B6 DOUT28_P DOUT12_P B15 DOUTP12 DOUTN28 C6 DOUT28_N DOUT13_N E14 DOUTN13 DOUTP29 E7 DOUT29_P DOUT13_P D14 DOUTP13 DOUTN29 D7 DOUT29_N DOUT14_N B14 DOUTN14 DOUTP30 C5 DOUT30_P DOUT14_P C14 DOUTP14 DOUTN30 B5 DOUT30_N DOUT15_N E13 DOUTN15 DOUTP31 E6 DOUT31_P DOUT15_P D13 DOUTP15 DOUTN31 D6 DOUT31_N C B Sensor LVDS Sensor LVDS Interface A UNLESS OTHERWISE SPECIFIED MATERIAL WHERE TOTAL TOLERANCE OS .001 DIM. ARE IN + - 3 PL DEC TOL + - ANGULAR TOL NEXT ASSY USED ON APPLICATION 8 7 6 5 NEXT ASSY FINAL ASSY QUANITY REQD 4 ON Semiconductor INCHES OR LESS AND ON ALL 2 PL DEC TOL + - A DIMENSIONS APPLY AFTER FINISH THREADS. IN ALL OTHER PLACES DIMENSIONS APPLY BEFORE FINISH. NAME DR FINISH PYTHON xK FMC REFERENCE PCB QA CHK SURF ROUGHNESS ENGR EDGES ENGR INSIDE RADII ECN NO. Brian Tobey SIZE D DEVIATIONS FROM INTENDED SHAPE (FLATNESS,ROUNDNESS,SQUARENESS ETC.) MUST BE WITHIN STATED DIMENSIONAL TOLERANCES. 3 REL DATE 01/19/2015 SCALE 2 DWG NO. PCB # 43020000 REV 1 ASSEM # 43020001 REV 1 PROGRAM CADSTAR SHEET 1 6 of 9 8 7 6 5 4 3 2 1 REVISIONS ZONE SYM DESCRIPTION DATE APPROVAL D D C C U12-C SRD2_NGUARD NO_CONNECT_15 IBIAS_MASTER C2 IBIAS_OUT B2 IBIAS_MASTER SRD2_N SRD1_NGUARD Connect this to 47K to GNDA_33 reference NO_CONNECT_16 K1 F3 NO_CONNECT_28 E3 NO_CONNECT_29 G4 NO_CONNECT_30 SRD1_N G5 TD_CATHODE G7 TD_ANODE G6 SPARE_VREF6T SPARE_DIG_IN G14 NO_CONNECT_31 TD_ANODE Digital Test Inputs NO_CONNECT_17 K2 SPARE_VREF6T SPARE_DIG_IN G13 NO_CONNECT_18 K3 SPARE_VREF6T SPARE_DIG_IN G12 NO_CONNECT_19 K4 SPARE_VREF6T NO_CONNECT_20 K5 SPARE_VREF6T SPARE_DIG_OUT H25 NO_CONNECT_32 NO_CONNECT_21 K6 SPARE_VREF6T SPARE_DIG_OUT H24 NO_CONNECT_33 NO_CONNECT_22 K7 SPARE_VREF6T SPARE_DIG_OUT H23 NO_CONNECT_34 NO_CONNECT_23 K8 SPARE_VREF6T SPARE_ANA G11 NO_CONNECT_35 SPARE_ANA G10 NO_CONNECT_36 NO_CONNECT_24 J1 SPARE_VREF6T_HV NO_CONNECT_25 J2 SPARE_VREF6T_HV NO_CONNECT_26 J3 SPARE_VREF6T_HV NO_CONNECT_27 J4 SPARE_VREF6T_HV Temperature Monitoring Diode Connections Tdie = (0.77-Vdiode at bias 40 uA)/0.00158°C TD_CATHODE Sensor Analog and Spare I/O B B Sensor Analog and Spare I/O A UNLESS OTHERWISE SPECIFIED MATERIAL WHERE TOTAL TOLERANCE OS .001 DIM. ARE IN + - 3 PL DEC TOL + - ANGULAR TOL NEXT ASSY USED ON APPLICATION 8 7 6 5 NEXT ASSY FINAL ASSY QUANITY REQD 4 ON Semiconductor INCHES OR LESS AND ON ALL 2 PL DEC TOL + - A DIMENSIONS APPLY AFTER FINISH THREADS. IN ALL OTHER PLACES DIMENSIONS APPLY BEFORE FINISH. NAME DR FINISH PYTHON xK FMC REFERENCE PCB QA CHK SURF ROUGHNESS ENGR EDGES ENGR INSIDE RADII ECN NO. Brian Tobey SIZE D DEVIATIONS FROM INTENDED SHAPE (FLATNESS,ROUNDNESS,SQUARENESS ETC.) MUST BE WITHIN STATED DIMENSIONAL TOLERANCES. 3 REL DATE 01/19/2015 SCALE 2 DWG NO. PCB # 43020000 REV 1 ASSEM # 43020001 REV 1 PROGRAM CADSTAR SHEET 1 7 of 9 8 7 6 5 4 3 2 1 REVISIONS ZONE SYM DESCRIPTION DATE APPROVAL TBD Number of separate(?) Power Supplies D D U12-D VDDD_18 VDDD_18 A1 VDDD_33 VDDD_18 A24 VDDD_33 VDDD_18 A25 VDDD_33 VDDD_18 R1 VDDD_33 VDDD_18 R2 VDDD_33 VDDD_18 R3 VDDD_33 VDDD_18 R23 VDDD_33 VDDD_18 R24 P25 VDDD_33 VDDD_18 R25 A6 VDDA_33 A7 VDDA_33 A8 VDDA_33 VDD_PIX K9 A9 VDDA_33 VDD_PIX K10 A10 VDDA_33 VDD_PIX K11 VDDD_33 LDO Micro-8 3.3V B1 B25 C1 Vddd_33 = 3.3V ~100 mA C25 N1 N25 P1 Vdda_33 = Analog 3.3V ~900 mA A11 C VDD_pix VDDA_33 VDD_PIX K12 A12 VDDA_33 VDD_PIX K13 A13 VDDA_33 VDD_PIX K14 A14 VDDA_33 VDD_PIX K15 A15 VDDA_33 VDD_PIX K16 A16 VDDA_33 VDD_PIX L2 A17 VDDA_33 VDD_PIX L3 A18 VDDA_33 VDD_PIX L4 A19 VDDA_33 VDD_PIX L5 VDDA_33 VDD_PIX L6 A20 A21 VDDA_33 VDD_PIX L7 A22 VDDA_33 VDD_PIX L8 A23 VDDA_33 VDD_PIX L9 VDD_PIX L10 VDD_casc Vdd_casc = 1.0V ~1 mA?? +Vhigh L17 VDD_CASC VDD_PIX L11 L18 VDD_CASC VDD_PIX L12 M17 VDD_CASC VDD_PIX L13 M18 VDD_CASC VDD_PIX L14 VDD_PIX L15 LDO Micro-8 ADJ Vdd_resfd = 4.2V ~10 mA?? Vdd_calib = 4.2V ~10 mA?? L24 VDD_RESFD VDD_PIX L16 M24 VDD_RESFD VDD_PIX M2 N24 VDD_RESFD VDD_PIX M3 P24 VDD_RESFD VDD_PIX M4 VDD_PIX M5 K21 VDD_CALIB VDD_PIX M6 L21 VDD_CALIB VDD_PIX M7 M21 VDD_CALIB VDD_PIX M8 N21 VDD_CALIB VDD_PIX M9 VDD_PIX M10 VDD_SEL VDD_PIX M11 VDD_SEL VDD_PIX M12 VDD_SEL VDD_PIX M13 VDD_SEL VDD_PIX M14 VDD_PIX M15 L19 VDD_SEL L20 M19 M20 Vdd_trans = 3.3V ~10 mA Vita xK is 4.2V Vdd_respd Vddd_18 = 1.8V ~500 mA VDDA_33 DCDC SOIC-8 3.3V Vdd_sel = 4.2V ~1 mA?? Vita xK is 3.3V Vdd_sel LDO D2PAK-5 1.8V VDD_TRANS B N22 VDD_TRANS VDD_PIX M16 N23 VDD_TRANS VDD_PIX N2 P22 VDD_TRANS VDD_PIX P2 P23 VDD_TRANS L1 VREF_COLMUX L25 Vref_colmux is a sinking/sourcing supply ~1.0V @ ?? mA M1 M25 LDO Micro-8 3.3V Vdd_pix = Analog 3.3V ~60 mA for Python xK C B VREF_COLMUX VREF_COLMUX VREF_COLMUX VREF_COLMUX Sensor Vsupply // // Supply SETUP.VDDCASC SETUP.VDDCOLMX SETUP.VDDPIX SETUP.VDDTRANS SETUP.VDDCALIB SETUP.VDDRESFD SETUP.VDDSEL SETUP.GNDTRANS SETUP.GNDCALIB SETUP.GNDRESFD SETUP.GNDSEL A = = = = = = = = = = = Device // Rev // 1.0; // 1.0; // 3.3; // 3.3; // 4.2; // 4.2; // 4.2; // ?.?; // 0.0; // ?.?; // 0.0; // VITA xK REVVDDCASC VDDCOLMX VDDPIX VDDRESPD VDDTRANS VDDRESFD VDDSEL GNDRESPD GNDTRANS GNDRESFD GNDSEL PYTHON xK REVA REVB ---------------------------------------VDDTRANS -------VDDSAMPLE VDDCALIB --------------------------GNDTRANS -------GNDSAMPLE GNDCALIB --------------------------- Sensor Power UNLESS OTHERWISE SPECIFIED WHERE TOTAL TOLERANCE OS .001 USED ON APPLICATION 7 6 + - 3 PL DEC TOL + - ANGULAR TOL 5 NEXT ASSY FINAL ASSY QUANITY REQD 4 ON Semiconductor INCHES OR LESS AND ON ALL 2 PL DEC TOL + - A DIMENSIONS APPLY AFTER FINISH DIM. ARE IN NEXT ASSY 8 MATERIAL THREADS. IN ALL OTHER PLACES DIMENSIONS APPLY BEFORE FINISH. NAME DR FINISH PYTHON xK FMC REFERENCE PCB QA CHK SURF ROUGHNESS ENGR EDGES ENGR INSIDE RADII ECN NO. Brian Tobey SIZE D DEVIATIONS FROM INTENDED SHAPE (FLATNESS,ROUNDNESS,SQUARENESS ETC.) MUST BE WITHIN STATED DIMENSIONAL TOLERANCES. 3 REL DATE 01/19/2015 SCALE 2 DWG NO. PCB # 43020000 REV 1 ASSEM # 43020001 REV 1 PROGRAM CADSTAR SHEET 1 8 of 9 8 7 6 5 4 3 2 1 REVISIONS ZONE D SYM DESCRIPTION DATE APPROVAL D U12-E N3 GND_COLPC GND_COLBIAS A4 N4 GND_COLPC GND_COLBIAS A5 N5 GND_COLPC GND_COLBIAS B4 N6 GND_COLPC GND_COLBIAS B22 N7 GND_COLPC GND_COLBIAS C4 N8 GND_COLPC GND_COLBIAS C22 N9 GND_COLPC GND_COLBIAS C23 N10 GND_COLPC GND_COLBIAS C24 GND_COLPC GND_COLBIAS D4 GND_COLBIAS D22 N11 GND_COLPC N13 GND_COLPC GND_COLBIAS E4 N14 GND_COLPC GND_COLBIAS E22 N15 GND_COLPC GND_COLBIAS F4 N16 GND_COLPC GND_COLBIAS F5 GND_COLPC GND_COLBIAS F6 N18 GND_COLPC GND_COLBIAS F7 N19 GND_COLPC GND_COLBIAS F8 N20 GND_COLPC GND_COLBIAS F9 P3 GND_COLPC GND_COLBIAS F10 P4 GND_COLPC GND_COLBIAS F11 P5 GND_COLPC GND_COLBIAS F12 GND_COLBIAS F13 P6 NOT connected to Substrate GND_COLPC GND_COLBIAS F14 P8 GND_COLPC GND_COLBIAS F15 P9 GND_COLPC GND_COLBIAS F16 P10 GND_COLPC GND_COLBIAS F17 GND_COLBIAS F18 Analog? P7 P11 Connected to Substrate GND_COLPC P12 GND_COLPC GND_COLBIAS F19 P13 GND_COLPC GND_COLBIAS F20 P14 GND_COLPC GND_COLBIAS F21 P15 GND_COLPC GND_COLBIAS F22 P16 GND_COLPC GND_COLBIAS G15 P17 GND_COLPC GND_COLBIAS G16 P18 GND_COLPC GND_COLBIAS G17 P19 GND_COLPC GND_COLBIAS G18 GND_COLPC GND_COLBIAS G19 P21 GND_COLPC GND_COLBIAS G20 R4 GND_COLPC GND_COLBIAS G21 J5 GNDD_33 J6 GNDD_33 J7 GNDD_33 J8 GNDD_33 GNDD_33 J10 GNDD_33 Mixed Analog/Digital? Pixel Transfer GNDD_33 Floating Diff Reset Pixel Select Calibration J13 GNDD_18 J14 GNDD_18 J15 GNDD_18 J16 GNDD_18 J17 GNDD_18 J18 GNDD_18 J19 GNDD_18 J20 GNDD_18 J21 C 1.8V Domain Ground ?? GND_SEL GND_SEL GNDD_18 Generic Ground ?? B K20 GND_SEL K19 GND_SEL Non-Zero Sinking Supply? K18 K17 GND_CALIB GND_CALIB GND_CALIB M22 L22 GND_CALIB J22 Non-Zero Sinking Supply? K22 GND_RESFD GND_RESFD GND_RESFD K25 K24 GND_RESFD J24 Non-Zero Sinking Supply? J25 VREF_TRANS VREF_TRANS M23 L23 GNDA_33 GNDA_33 R22 GNDA_33 GNDA_33 GNDA_33 GNDA_33 GNDA_33 GNDA_33 GNDA_33 GNDA_33 GNDA_33 GNDA_33 GNDA_33 GNDA_33 GNDA_33 GNDA_33 GNDA_33 R21 R20 R19 R18 R17 R16 R15 R14 R13 R12 R11 R10 R9 R8 R7 R5 B R6 GNDA_33 Analog VREF_TRANS GNDD_33 VREF_TRANS J11 J12 Connected to Substrate Digital J9 NOT connected to Substrate K23 P20 J23 Generic Ground ?? GND_COLPC Analog? N17 Digital C Sensor Ground N12 Non-Zero Sinking Supply? VREF_SEL VREF_CALIB VREF_RESFD 3.3V Domain Ground ?? VREF_TRANS Sensor Grounding A UNLESS OTHERWISE SPECIFIED MATERIAL WHERE TOTAL TOLERANCE OS .001 DIM. ARE IN + - 3 PL DEC TOL + - ANGULAR TOL NEXT ASSY USED ON APPLICATION 8 7 6 5 NEXT ASSY FINAL ASSY QUANITY REQD 4 ON Semiconductor INCHES OR LESS AND ON ALL 2 PL DEC TOL + - A DIMENSIONS APPLY AFTER FINISH THREADS. IN ALL OTHER PLACES DIMENSIONS APPLY BEFORE FINISH. NAME DR FINISH PYTHON xK FMC REFERENCE PCB QA CHK SURF ROUGHNESS ENGR EDGES ENGR INSIDE RADII ECN NO. Brian Tobey SIZE D DEVIATIONS FROM INTENDED SHAPE (FLATNESS,ROUNDNESS,SQUARENESS ETC.) MUST BE WITHIN STATED DIMENSIONAL TOLERANCES. 3 REL DATE 01/19/2015 SCALE 2 DWG NO. PCB # 43020000 REV 1 ASSEM # 43020001 REV 1 PROGRAM CADSTAR SHEET 1 9 of 9 ONSemi-43020000_Rev1 Monday, March 09, 2015 2:13 PM ======================== New/Addressed Items Consigned Parts Highlited email 3/16 - 3/17/2015 email 3/23/2015 Part Name C100UF_1206 DESCRIPTION CAP 100UF 6.3V X5R MFG Part# C1206C107M9PAC Digikey Part# 399-5620-1-ND MFG KEMET PriceCT PriceTR Count 5 C10UF_0805_16V_80 CAP 10UF 16WVDC 80% GRM21BF51C106ZE15L 490-3347-1-ND Murata 23 C.1UF_0402 CAP 0.1UF 10% 6.3V X7R C0402C104K9RACTU 399-4872-1-ND Kemet 111 C10nF_0603 C68PF_0603 C10UF_1210_20V10 C100nF_0603 C1nF_0603_NPO 10BQ030PBF 1N4148W HDR_.100_2X5_SMT SEAM-40-01-S-10-2-RA-K-TR HDR_MMT_106_02_F_DH IHLP2020BZER100M11 MCH6603-TL-H CAP 10nF 50V X7R CAP 68PF 50WVDC 5% CAP 10UF 20WVDC 10% CAP 100nF 50V X7R CAP 1nF 50V NPO SCHOTTKY RECTIFIER 1A 30V DIODE FAST SWITCHING 1A 100V HEADER ASSY 10 POS 2 ROW SMT FMC Module Connector HEADER 6x2 PINS SMT INDUCTOR 10UH 2.2A 20% SMD MOSFET 2P-CH 50V 0.14A Logic Level Gate 1.5V Drive C0603C103K5RAC C0603C680J5GAC TPSB106K020R0500 C0603C104K5RAC C0603C102J5GAC 10BQ030PBF 1N4148W-V-GS08 0015916102 SEAM-40-01-S-10-2-RA-K-TR MMT-106-02-F-DH IHLP2020BZER100M11 MCH6603-TL-H 399-1091-1-ND 399-1058-1-ND 478-9048-1-ND 399-5089-1-ND 399-3293-1-ND 10BQ030PBFCT-ND 1N4148W-E3-08CT-ND WM3699CT-ND SAMTEC SAMTEC 541-1225-1-ND Consigned Part (100 pcs) KEMET KEMET AVX KEMET KEMET VISHAY SEMICONDUCTOR VISHAY SEMICONDUCTOR MOLEX SAMTEC SAMTEC VISHAY DALE On-Semi 3 4 4 6 2 2 4 2 1 1 2 1 R0_0805 RESISTOR 0 CRCW08050000Z0EA 541-0.0ACT-ND VISHAY DALE 14 R1002_0402 R3001_0402 R2940_0603 R2001_0603 R8060_0603 R1201_0603 R100R_0603 R47K_0603 R2002_0603 R0_0603 R100R_0402 R1600_0603 CS51414 NCP3335ADM330R2G LM86CIMX NOIP1SN010KA_REV1 NCV59151DS18 LTC2487 CAT660EVA NLX2G14AMUTCG VREF_2.5V LM8261M5_NOPB NCP3335ADMADJR2G CNOLOAD_0603 RESISTOR 10K ohm 1/16W 1% RESISTOR 3.0K ohm 1/16W 1% RESISTOR 294 1/10W 1% RESISTOR 2K 1/16W 1% RESISTOR 806 ohm 1/10W 1% RESISTOR 1.2K 1/10W 1% RESISTOR 100 OHM RESISTOR 47K RESISTOR 20K 1/10W 1% RESISTOR 0 RESISTOR 100 OHM 63mW 1% RESISTOR 160 1/10W 1% 1.5 A 260 kHz and 520 kHz Low Voltage Buck Regulators Low Dropout Regulator Ultra High Accuracy Low Iq 500 mA IC TEMP SENSOR SMBUS 8-SOIC Andon Electronics Python xK 355 pin uPGA Socket IC REG LDO 1.8V 1.5A D2PAK 16-Bit 2-/4-Channel ?S ADC IC REG SWITCHED CAP DL INV 8SOIC IC INVERTER DUAL SCHMTRIG UDFN6 1.45x1.0 0.5P CASE 517AQ 2.5V CMOS VOLTAGE REFERENCE 50ppm/°C Max 50uA IC OPAMP GP 24MHZ RRO SOT23-5 Low Dropout Regulator Adjustable Ultra High Accuracy Low Iq 500 mA CAP NOLOAD ERJ-2RKF1002X ERJ-2RKF3001X CRCW0603294RFKEA CRCW06032K00FKEA CRCW0603806RFKEA CRCW06031K20FKEA CRCW0603100RFKEA CRCW060347K0FKEA CRCW060320K0FKEA CRCW06030000Z0EA CRCW0402100RFKED CRCW0603160RFKEA CS51414GD8G NCP3335ADM330R2G LM86CIMX/NOPB 10-31-13A-355-400T4-R27-L14 NCV59151DS18R4G LTC2487IDE#PBF CAT660EVA-GT3 NLX2G14AMUTCG REF3025AIDBZR LM8261M5/NOPB NCP3335ADMADJR2G _NOLOAD P10.0KLCT-ND P3.00KLCT-ND 541-294HCT-ND 541-2.00KHCT-ND 541-806HCT-ND 541-1.20KHCT-ND 541-100HCT-ND 541-47.0KHCT-ND 541-20.0KHCT-ND 541-0.0GCT-ND 541-100LCT-ND 541-160HCT-ND CS51414GD8GOS-ND NCP3335ADM330R2GOSTR-ND LM86CIMX/NOPBCT-ND Consigned Part (55 pcs) Consigned Part (100 pcs) LTC2487IDE#PBF-ND CAT660EVA-GT3OSCT-ND Mouser 296-26322-1-ND LM8261M5/NOPBCT-ND Consigned Part (100 pcs) NOLOAD Panasonic Panasonic VISHAY DALE VISHAY DALE VISHAY DALE VISHAY DALE VISHAY DALE VISHAY DALE VISHAY DALE VISHAY DALE VISHAY DALE VISHAY DALE ON Semi ON Semi Texas Instr Andon Electronics ON-Semi Linear Technology ON-Semi On-Semi Texas Instr Texas Instr ON Semi NOLOAD 6 6 2 3 1 5 2 2 5 8 1 1 2 2 1 1 1 1 1 1 1 3 1 1 TV62x42 TEST VIA 62x42 NOLOAD _NOLOAD NOLOAD NOLOAD 21 SEL2_0402 ON_LOGO HOLE 150/95 FIDUCIAL_BD_40 PCB_43020000 RNOLOAD_0603 RNOLOAD_0805 RDNP_0402 TV35/25x13 4 position jumper for a S1S2 selection NOLOAD Silkscreen Logo NOLOAD MOUNTING NOLOAD FIDUCIAL BOARD LOCAL 40 NOLOAD Bare Board PCB NOLOAD NO LOAD RESISTOR NOLOAD NO LOAD RESISTOR NOLOAD RESISTOR do not populate ohm 1/16W 5% NOLOAD TEST VIA 35/25x13 NOLOAD _NOLOAD _NOLOAD _NOLOAD _NOLOAD _NOLOAD 43020000 _NOLOAD _NOLOAD _NOLOAD _NOLOAD NOLOAD NOLOAD NOLOAD NOLOAD NOLOAD NOLOAD NOLOAD NOLOAD NOLOAD NOLOAD NOLOAD NOLOAD NOLOAD NOLOAD PCB Fabricator NOLOAD NOLOAD NOLOAD NOLOAD 1 1 13 6 1 9 2 1 6 PCB_REF_NAME Item # C1 C11 C12 C146 C159 1 C10 C100 C107 C112 C117 C118 C120 C121 C148 C149 C150 C151 C22 C23 C26 C40 C49 C50 C65 C69 C71 C9 2 C95 C101 C102 C103 C106 C108 C109 C110 C111 C113 C114 C115 C119 C122 C123 C124 C125 C126 C127 C128 C129 C130 C131 C132 C133 C134 C135 C136 C137 C138 C139 C140 C141 C142 C143 C144 C145 C15 C152 C156 C16 C18 C19 C20 C21 C24 C25 C27 C28 C29 C3 C30 C31 C32 C33 C34 C35 C36 C37 C38 C39 C41 3 C42 C43 C44 C45 C46 C47 C51 C52 C53 C54 C55 C56 C57 C58 C59 C60 C61 C62 C63 C64 C66 C67 C72 C73 C74 C75 C76 C77 C78 C79 C8 C80 C81 C82 C83 C84 C85 C86 C87 C88 C89 C90 C91 C92 C93 C94 C96 C97 C98 C99 C104 C105 C17 4 C116 C48 C68 C70 5 C13 C14 C157 C158 6 C147 C153 C154 C2 C6 C7 7 C155 C5 8 CR1 CR6 9 CR2 CR3 CR4 CR5 10 J1 J2 11 J3 12 J4 13 L1 L2 14 Q1 15 R10 R11 R12 R13 R18 R19 R20 R25 R26 R33 R34 R36 16 R39 R43 R14 R15 R59 R62 R65 R66 17 R16 R17 R23 R28 R41 R61 18 R2 R51 19 R21 R27 R40 20 R22 21 R24 R29 R42 R46 R47 22 R3 R57 23 R30 R52 24 R31 R4 R49 R56 R7 25 R37 R38 R48 R5 R55 R67 R68 R8 26 R53 27 R58 28 U1 U14 29 U10 U5 30 U11 31 U12 32 U13 33 U15 34 U2 35 U3 36 U4 37 U6 U7 U9 38 U8 39 C4 40 EAV1 EAV2 EAV3 EAV4 EAV5 EAV6 EAV7 TV1 TV10 TV11 TV12 TV13 TV14 TV2 TV3 TV4 TV5 TV6 TV7 TV8 41 TV9 JMP1 42 LOGO1 43 N1 N10 N11 N12 N13 N2 N3 N4 N5 N6 N7 N8 N9 44 NFM1 NFM2 NFM3 NFM4 NFM5 NFM6 45 PCB1 46 R1 R32 R45 R50 R54 R6 R63 R64 R9 47 R35 R44 48 R60 49 TP1 TP2 TP3 TP4 TP5 TP6 50 Load/No Load Load Load Load Load Load Load Load Load Load Load Load Load Load Load Load Load Load Load Load Load Load Load Load Load Load Load Load Load Load Load Load Load Load Load Load Load Load Load Load NOLOAD NOLOAD NOLOAD NOLOAD NOLOAD NOLOAD NOLOAD NOLOAD NOLOAD NOLOAD NOLOAD