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Part : EXFS/HR 330PF +/- 1% Supplier : LCR Electronics Manufacturer : Newark element14 Stock : - Best Price : $1.06 Price Each : $1.91
Part : FSC 160V 330PF 2.5% Supplier : LCR Electronics Manufacturer : Newark element14 Stock : 1,150 Best Price : $1.06 Price Each : $1.57
Part : FSCEX 330PF 1% 630V Supplier : LCR Electronics Manufacturer : Newark element14 Stock : 695 Best Price : $0.8140 Price Each : $0.8140
Part : FKP3-330PF/5/100/7.5 Supplier : Wima Manufacturer : America II Electronics Stock : 4,000 Best Price : - Price Each : -
Part : CD15330PF500V Supplier : Cornell Dubilier Manufacturer : basicEparts Stock : 18 Best Price : - Price Each : -
Part : EXFS/HR 330PF +/- 1% Supplier : LCR Electronics Manufacturer : element14 Asia-Pacific Stock : - Best Price : $1.17 Price Each : $2.1040
Part : FSC 160V 330PF 2.5% Supplier : LCR Electronics Manufacturer : element14 Asia-Pacific Stock : 2,700 Best Price : $0.89 Price Each : $1.60
Part : FSCEX 330PF 1% 630V Supplier : LCR Electronics Manufacturer : element14 Asia-Pacific Stock : 2,124 Best Price : $1.14 Price Each : $2.0480
Part : EXFS/HR 330PF +/- 1% Supplier : LCR Electronics Manufacturer : Farnell element14 Stock : 35 Best Price : £0.8460 Price Each : £1.60
Part : FSC 160V 330PF 2.5% Supplier : LCR Electronics Manufacturer : Farnell element14 Stock : 2,719 Best Price : £0.45 Price Each : £1.21
Part : FSCEX 330PF 1% 630V Supplier : LCR Electronics Manufacturer : Farnell element14 Stock : 2,266 Best Price : £0.5770 Price Each : £1.56
Shipping cost not included. Currency conversions are estimated. 

330pf

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: (approximately 330pF) in parallel with the output source termination resistor. Figures 4 and 5 show the ML6427 , frequency response at 4.8MHz from ­1.3 dB to ­0.25dB. See the "330pF" curve in Figure 1. When this , . See Figure 3. 10 .25 330pF 270pF 220pF 0pF 0 330pF 0 ­.50 ­.75 ATTINUATION , TIME (ns) -10 0pF 220pF 270pF 330pF -20 -30 -40 0 1 3 2 5 4 7 6 , MUX FOURTH ORDER FILTER 220uF 18 X2 COMPOSITE C31 330pF R23 75 YOUT SVIDEO Fairchild Semiconductor
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ML6428 LI1806B151R peaking
Abstract: Plated Shell 9 2 330pf FDE-9PTI2/3 FDE-9ST2/3 2 1,000pf FDE-9PTI2/1 FDE-9ST2/1 15 2 330 pf FOA-15PTI2/3 FDA-15ST2/3 2 1,000pf FD A-15PTI2/1 FDA-15ST2/1 25 2 330pf FDB-25PTI2/3 FDB-25ST2/3 2 1,000pf FDB-25PTI2/1 FDB-25ST2/1 37 2 330pf FDC-37PTI2/3 FDC-37ST2/3 2 1,000pf FDC-37PTI2/1 FDC-37ST2/1 50 2 330pf FDD-50PTI2/3 FDD-50ST2/3 2 1,000pf FDD-50PTI2/1 FDD-50ST2/1 Straight PCB Mount Number of , /Nickel Indent Plated Shell Tin/Nickel Plated Shell Tin/Nickel Plated Shell Plated Shell 9 2 330pf FDE -
OCR Scan
HE501 FDDB-50S1AENT2 15P0L2 CINCH 1A2N BT 217 50S1 FDA-15S1A0NT2/3 FOAB-15S1AENT2/3 FDAB-15S1ASNT2/3 FDA-15S1A0NT2/1 FDAB-15S1AENT2/1 FDAB-15S1ASNT2/1
Abstract: noise (refer to Figure 1) Figure 1 : Internal reference and common mode setting 330pF 10nF 4.7 uF VIN VREFP TSA1005 VINB INCM VREFM 330pF 10nF 4.7uF 11/20 TSA1005-20 External reference , I or Q ch. INCM 330pF 10nF 470nF 1k 330pF 10nF 4.7uF VCCA VREFP VIN TSA1005 , INCM VREFP-VREFM = 1 V 330pF 10nF 4.7uF Single-ended input configuration The , TSA1005 VINB VREFM 20 10 RPOL 0 100 50 0 5 10 15 20 25 INCM 330pF VREFP-VREFM = 1 V 10nF STMicroelectronics
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E11213 sa1005 10-BIT 20MSPS
Abstract: : Internal reference and common mode setting 330pF 10nF 4.7uF VIN VREFP TSA1005 VINB INCM VREFM 330pF 10nF 4.7uF TSA1005 External reference and common mode Each of the voltages VREFP and INCM can , Analog source 50 ADT1-1 1:1 VIN 33pF VINB TSA1005 I or Q ch. INCM 330pF 10nF 470nF 1k 330pF 10nF 4.7uF VCCA VREFP VIN TSA1005 VINB VREFM TS821 TS4041 external reference , 470nF C34 47uF VCCB3 + C43 10uF J6 470nF C27 C37 C39 C51 330pF 10nF 330pF 470nF DO D1 D2 D3 D4 D5 D6 STMicroelectronics
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rs7 smd 20/40MSPS 20/40M
Abstract: 33pF TSA1204 I or Q ch. VINB INCM 330pF 10nF Single-ended input configuration It is , VREFM INCM Figure 3 : AC-coupled Single-ended input 330pF 10nF 470nF VREFP-VREFM = 0.5 V , 0.89V VIN 330pF 10nF 470nF VREFP TSA1204 I or Q ch. VINB VREFM Figure 4 : DC-coupled , VINB VREFM INCM VREFP-VREFM = 1 V 330pF 10nF 470nF It is possible to use an , on Rpol value 1k 330pF VCCA VREFP VIN TSA1204 I or Q ch. VINB VREFM 10nF 470nF STMicroelectronics
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CQ13 CQ31 TQFP48 TSA1201 TSA1204IF TSA1204IFT 12-BIT
Abstract: Figure 1) Figure 1: Internal reference and common mode setting 330pF 10nF VIN 4.7uF VREFP TSA1005 VINB INCM 330pF 10nF 4.7uF VREFM The digital data out from each ADC core are , -1 1:1 VIN 50 33pF TSA1005 I or Q ch. VINB INCM 330pF 10nF 470nF Figure 2: External reference setting 1k 330pF 10nF 4.7uF VCCA VREFP VIN TSA1005 VINB VREFM TS821 , 0NM R23 CI9 C4 470nF 10nF CQ10 CQ9 33pF CQ1 JQ2 VREFQ 330pF CQ8 NM STMicroelectronics
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CQ11 SOT23-6 TSA1005-20IF TSA1005-20IFT TSA1005-40IFT TSA1005I-40IF 0110596/C
Abstract: 330pF 10nF 4.7uF 330pF 10nF 4.7 uF TSA1203 VINB INCM VREFM 12/21 TSA1203 External reference , Q ch. INCM 330pF 10nF 470nF 1k 330pF 10nF 4.7uF VCCA VREFP VIN TSA1203 VINB , analog input analog DC AC+DC VIN VREFP TSA1203 VINB VREFM analog DC 330pF INCM The , Layout precautions Analog DC AC+DC VIN VREFP TSA1203 VINB VREFM INCM 330pF 10nF , R22 R23 R24 0NM 0NM 0NM 0NM C16 470nF AVCC 470nF C27 47u F 470nF 10nF 330pF DO D1 STMicroelectronics
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SW-SPST footprint idc32 C16 marking code SOT23-6 CQ32 CQ612 IDC 32 40MSPS
Abstract: reference and common mode setting 1.03V 330pF 10nF 4.7uF VIN VREFP 0.57V 330pF 10nF 4.7uF , Analog source 50 ADT1-1 1:1 VIN 33pF VINB TSA1204 I or Q ch. INCM 330pF 10nF 470nF 1k 330pF 10nF 4.7uF Figure 4 represents the biasing of a differential input signal in AC-coupled , analog input analog DC analog DC 330pF 10nF VREFP-VREFM = 1 V 4.7uF Layout precautions To use the , R23 R24 0NM 0NM 0NM 0NM C43 10uF J6 470nF C27 C37 C39 C51 330pF 10nF 330pF 470nF DO STMicroelectronics
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DIGITAL CLOCK IC SW-SPsT
Abstract: ) Figure 1 : Internal reference and common mode setting 1.03V 330pF 10nF VIN TSA1204 VINB 4.7uF VREFP INCM VREFM 0.57V 330pF 10nF 4.7uF TSA1204 External reference and common , source ADT1-1 1:1 VIN 50 33pF TSA1204 I or Q ch. VINB INCM 330pF 10nF 470nF , or fixed externally. 330pF 10nF 4.7uF VCCA VREFP VIN TSA1204 VINB VREFM Figure 4 , VREFM INCM DC 330pF 10nF 4.7uF VREFP-VREFM = 1 V Clock input The TSA1204 performance is STMicroelectronics
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093LSB 470nF
Abstract: : Internal reference and common mode setting 1.03V VIN VREFP 0.57V 330pF 10nF 4.7uF 330pF 10nF 4.7 uF , I or Q ch. INCM 330pF 10nF 470nF 1k 330pF 10nF 4.7uF Figure 4 represents the , input analog DC AC+DC VIN VREFP TSA1204 VINB VREFM analog DC 330pF INCM 10nF 4.7uF , 330pF 10nF 4.7uF VREFP-VREFM = 1 V Dynamic characteristics, while not being as remarkable as , 74LCX573 C2 Raj1 47K ADCDUAL12B 330pF 1K 8-14bits ADC REFPI REFMI INCMI AVCC AVCC OEB VCCBI VCCBI GNDBE STMicroelectronics
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C25 DEX power supply
Abstract: Figure 1) Figure 1: Internal reference and common mode setting 330pF 10nF VIN 4.7uF VREFP TSA1005 VINB INCM 330pF 10nF 4.7uF VREFM The digital data out from each ADC core are , -1 1:1 VIN 50 33pF TSA1005 I or Q ch. VINB INCM 330pF 10nF 470nF Figure 2: External reference setting 1k 330pF 10nF 4.7uF VCCA VREFP VIN TSA1005 VINB VREFM TS821 , 0NM R23 CI9 C4 470nF 10nF CQ10 CQ9 33pF CQ1 JQ2 VREFQ 330pF CQ8 NM STMicroelectronics
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ultrasound transducer transformer
Abstract: Figure 1). Figure 1 : Internal reference and common mode setting 1.03V VIN TSA1203 VINB 330pF 10nF 4.7uF VREFP INCM VREFM 0.57V 330pF 10nF 4.7uF TSA1203 External reference and , -1 1:1 VIN 50 33pF TSA1203 I or Q ch. VINB INCM 330pF 10nF 470nF Figure 4 , externally. 330pF 10nF 4.7uF VCCA VREFP VIN TSA1203 VINB VREFM TS821 TS4041 external , VREFM INCM DC 330pF VREFP-VREFM = 1 V 10nF 4.7uF Clock input The TSA1203 performance STMicroelectronics
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TSA1203IF smd code marking 56 sot23-6 sfdr-i SA1203I TSA1203IFT
Abstract: reference and common mode setting 330pF 10nF VIN 4.7uF VREFP TSA1005 VINB INCM 330pF , shown on Figure 2 . Figure 2 : External reference setting 1k 330pF 10nF 4.7uF VCCA VREFP VIN TSA1005 VINB VREFM TS821 TS4041 INCM 330pF 10nF 470nF Figure 4 represents the biasing , TSA1005 VINB analog VREFM INCM DC VREFP-VREFM = 1 V 330pF 10nF 4.7uF TSA1005 , VREFM INCM 330pF VREFP-VREFM = 1 V 250 90 Icca (mA) Analog 200 70 60 150 STMicroelectronics
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Polar 585 schematic TSA1005-40IF STG719 CONNECTOR SIP2 TSA1005-40
Abstract: 33pF TSA1203 I or Q ch. VINB INCM 330pF 10nF Single-ended input configuration It is , VREFM INCM Figure 3 : AC-coupled Single-ended input 330pF 10nF 470nF VREFP-VREFM = 0.5 V , I or Q ch. VINB VREFM INCM VREFP-VREFM = 1 V 330pF In the standard configuration , reference setting 0.89V VIN 330pF 10nF 470nF VREFP TSA1203 I or Q ch. VINB VREFM VREFP , on Rpol value 1k 330pF VCCA VREFP VIN TSA1203 I or Q ch. VINB VREFM 10nF 470nF STMicroelectronics
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marking code c41 SMD ic
Abstract: reference and common mode setting 330pF 10nF 4.7 uF VIN VREFP TSA1005 VINB INCM VREFM 330pF 10nF , I or Q ch. INCM 330pF 10nF 470nF 1k 330pF 10nF 4.7uF Figure 4 represents the , amplitude. Figure 5 : DC-coupled 2Vpp differential analog input analog DC analog DC 330pF 10nF 4.7uF , ) TSA1005 VINB Icca (mA) 70 60 50 40 30 ICCA 100 150 VREFM INCM 330pF VREFP-VREFM = 1 V , C34 VCCB3 + C43 10 u F 470nF C27 47 u F 470nF 10nF 330pF DO D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 CLK STMicroelectronics
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c.d.m. technology c53 HP8644 MICRON phm om SMD CODE MARKING SW-SPST 3
Abstract: 0.46V 330pF 10nF 4.7uF 330pF 10nF 4.7uF TSA1203 VINB INCM VREFM 5.7 External reference , Figure 24. External reference setting TSA1203 1k VCCA VREFP VIN 1.2V 330pF 10nF 4.7uF , VINB TSA1203 I or Q ch. INCM 330pF 10nF 470nF Figure 26 represents the biasing of a , VREFP TSA1203 VINB VREFM INCM VREFP-VREFM = 1 V 330pF 10nF 4.7uF 5.9 Clock input , REFMQ INCMQ AGND AVCC DVCC DGND CLK SELECT DGND DVCC GNDBI 10nF 330pF C2 1K 8-14bits ADC NM REFPI REFMI STMicroelectronics
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display CQ31
Abstract: 0.035mA 0.05mA Capacitance CY none 330pF 470pF 330pF 470pF 330pF 470pF 330pF 470pF 330pF 470pF 330pF 470pF 330pF 470pF 330pF 470pF 330pF 470pF 330pF 470pF 330pF 470pF 330pF 470pF ± ± ± ± ± ± ± ± ± ± ± ± ± ± ± ± Spectrum Control
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64-XXX-020-5-12 IEC 320 power inlet with fuse 250VAC 0.1uF 120 64-65-BFF/64-65-BFS 64-XXX-020-3-11 64-XXX-020-5-11 64-XXX-020-3-12 64-XXX-040-3-11
Abstract: 1 : Internal reference and common mode setting 1.03V VIN VREFP 0.57V 330pF 10nF 4.7uF 330pF 10nF , configured as shown on Figure 2. Figure 2 : External reference setting 1k 330pF 10nF 4.7uF VCCA VREFP , INCM TSA1002 VINB VREFM INCM 330pF 10nF 4.7uF 330pF 10nF 4.7uF VREFP-VREFM = , VINB VREFM INCM 330pF VREFP-VREFM = 1 V 10nF 4.7uF Figure 9 : DC-coupled 1Vpp analog , /20 0.5V power supply 330pF 10nF 4.7uF VREFP-VREFM = 0.5 V Dynamic characteristics STMicroelectronics
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ICCA20 50MSPS TSA0801 TSA1001 TSA100 EVAL1002/AA SA1002C
Abstract: 0 Not installed 330pF ±10%, 50V ceramic capacitors (0402) Murata GRM36X7R331K050 C16 1 , 22pF C8 330pF C2 22pF L1 3.3nH 70 R8 2.4 R7 2.4 SHDN C18 OPEN R3 OPEN C15 OPEN C1 B1 A1 A2 C2 L2 100nH C4 330pF R2 10k 70 70 R1 10k C3 330pF VCC IFIN+ IFIN- U1 MAX2383 LO-/SHDN LO+/LO_EN DROUT GC RFOUT GND DRIN GND A3 B3 C3 A4 B4 C4 L3 1nH C12 330pF L7 3.3nH 70 Maxim Integrated Products
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MAX2383EVKIT 0603CS-R10XJBC LDB15C201A2400 TOKO RF TRANSFORMER toko transformer rf J502-ND 617DB-1018 MAX2383EVMAX2383 GRM36C0G220J050 GRM36C0G020B050 GRM36C0G101J050 GRM36C0G151J050
Abstract: solder containing 2.5% silver for 3 ± 0.5 seconds at 270°C ± 5°C. -5 5°C (C < 330pF) Q shall net be , specified tolerance. DISSIPATION FACTOR (330pF < C) D factor shall not exceed 0.1% QUALITY FACTOR (C < 330pF , . DISSIPATION FACTOR (330pF < C) D factor shall not exceed 0 15% QUALITY FACTOR (C < 330pF) Q shall not be less , than 30,000 M il DISSIPATION FACTOR (330pF < C) D factor shall not exceed 0.1% QUALITY FACTOR , (330pF < C) D factor shall not exceed 0.1% QUALITY FACTOR (C < 330pF) Q shall not be less then the value -
OCR Scan
Silver mica capacitor UC-232A
Abstract: Plated Shell 9 2 330pf FDE-9PTI2/3 FDE-9ST2/3 2 1,000pf FDE-9PTI2/1 FDE-9ST2/1 15 2 330 pf FOA-15PTI2/3 FDA-15ST2/3 2 1,000pf FD A-15PTI2/1 FDA-15ST2/1 25 2 330pf FDB-25PTI2/3 FDB-25ST2/3 2 1,000pf FDB-25PTI2/1 FDB-25ST2/1 37 2 330pf FDC-37PTI2/3 FDC-37ST2/3 2 1,000pf FDC-37PTI2/1 FDC-37ST2/1 50 2 330pf FDD-50PTI2/3 FDD-50ST2/3 2 1,000pf FDD-50PTI2/1 FDD-50ST2/1 Straight PCB Mount Number of , /Nickel Indent Plated Shell Tin/Nickel Plated Shell Tin/Nickel Plated Shell Plated Shell 9 2 330pf FDE Melexis
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TH7120 LQFP32 PLL FSK DEMODULATOR 40khz fsk transceiver HC49 40khz Heterodyne Receiver 930MH QS9000 ISO14001
Abstract: 330pF 10nF INCM 470nF Single-ended input configuration Some applications may require a , -1 transformer from Minicircuits. You might Signal source 100nF VIN TSA1201 50 VINB 330pF , TSA1201 VINB VREFM INCM 330pF 10nF 470nF REFERENCE CONNECTION Internal reference In the , 5 : Internal reference setting 1.0V VIN 330pF 10nF 470nF VREFP TSA1201 Figure 4 , 330pF 10nF 470nF IF-sampling Software radio has become a common mode for receiving data Multicomp
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capacitor MCCA001399 MCCA001416 MCCA001417 MCCA001418 MCCA001419 MCCA001420 MCCA001421
Abstract: noise (refer to Figure 1) Figure 1 : Internal reference and common mode setting 330pF 10nF 4.7 uF VIN VREFP TSA1005 VINB INCM VREFM 330pF 10nF 4.7uF 11/20 TSA1005-20 External reference , I or Q ch. INCM 330pF 10nF 470nF 1k 330pF 10nF 4.7uF VCCA VREFP VIN TSA1005 , INCM VREFP-VREFM = 1 V 330pF 10nF 4.7uF Single-ended input configuration The , TSA1005 VINB VREFM 20 10 RPOL 0 100 50 0 5 10 15 20 25 INCM 330pF VREFP-VREFM = 1 V 10nF STMicroelectronics
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TSA1201IF TSA1201IFT TLA704 SA1201 SA1201I EVAL1201/AA
Abstract: 23. Internal reference and common mode setting 1.03V VIN VREFP 0.57V 330pF 10nF 4.7F 330pF 10nF , TS821or TS4041-1.2 Vref. Figure 24. External reference setting 1k 330pF 10nF 4.7F VCCA VREFP VIN , VIN 330pF 10nF 470nF Figure 26. AC-coupled differential input 50 common mode 10nF , information Figure 27. DC-coupled 2 Vpp differential analog input analog DC analog DC 330pF 10nF , 603 603 603 603 Name Part Type C26 330pF C20 330pF C33 330pF C25 330pF CI1 33pF CQ1 33pF C34 47uF C42 STMicroelectronics
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TSA0801CFT TSA0801IF TSA0801IFT TSA0801CF SA0801C SA0801I EVAL0801/AA
Abstract: 33pF TSA1203 I or Q ch. VINB INCM 330pF 10nF Single-ended input configuration It is , VREFM INCM Figure 3 : AC-coupled Single-ended input 330pF 10nF 470nF VREFP-VREFM = 0.5 V , I or Q ch. VINB VREFM INCM VREFP-VREFM = 1 V 330pF In the standard configuration , reference setting 0.89V VIN 330pF 10nF 470nF VREFP TSA1203 I or Q ch. VINB VREFM VREFP , on Rpol value 1k 330pF VCCA VREFP VIN TSA1203 I or Q ch. VINB VREFM 10nF 470nF Multicomp
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capacitor 3.3 k 630 MCCA000884 MCCA000890 MCCA000891
Abstract: 33pF TSA1204 I or Q ch. VINB INCM 330pF 10nF Single-ended input configuration It is , VREFM INCM Figure 3 : AC-coupled Single-ended input 330pF 10nF 470nF VREFP-VREFM = 0.5 V , 0.89V VIN 330pF 10nF 470nF VREFP TSA1204 I or Q ch. VINB VREFM Figure 4 : DC-coupled , VINB VREFM INCM VREFP-VREFM = 1 V 330pF 10nF 470nF It is possible to use an , on Rpol value 1k 330pF VCCA VREFP VIN TSA1204 I or Q ch. VINB VREFM 10nF 470nF STMicroelectronics
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CQ-113 FS20
Abstract: Figure 1) Figure 1: Internal reference and common mode setting 330pF 10nF VIN 4.7uF VREFP TSA1005 VINB INCM 330pF 10nF 4.7uF VREFM The digital data out from each ADC core are , -1 1:1 VIN 50 33pF TSA1005 I or Q ch. VINB INCM 330pF 10nF 470nF Figure 2: External reference setting 1k 330pF 10nF 4.7uF VCCA VREFP VIN TSA1005 VINB VREFM TS821 , 0NM R23 CI9 C4 470nF 10nF CQ10 CQ9 33pF CQ1 JQ2 VREFQ 330pF CQ8 NM STMicroelectronics
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Abstract: TSA1203 VINB 330pF 10nF 4.7ÂuF VREFP INCM 0.46V 330pF 10nF 4.7ÂuF VREFM 8.2.2 , 1kâ"¦ 1.2V 330pF 10nF 4.7ÂuF VCCA VREFP VIN TSA1203 VINB VREFM 8.3 TS821 TS4041 , 33pF INCM 330pF 10nF 470nF 17/30 Application information TSA1203 Figure 26 , VREFP-VREFM = 1 V 330pF 10nF 4.7ÂuF VINCM = 0.5 V Figure 27 shows a DC-coupled configuration , C C 47ÂuF + C28 VCCB2 C16 470nF RSI5 0 2 3 C34 C14 330pF CI10 CI9 CI8 STMicroelectronics
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RX 1013 40MHZ
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