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Part Manufacturer Description Datasheet BUY
LTC1064-4 Linear Technology IC SWITCHED CAPACITOR FILTER, BUTTERWORTH, LOWPASS, PDIP14, Active Filter visit Linear Technology - Now Part of Analog Devices
LTC1060MJ/883 Linear Technology IC DUAL SWITCHED CAPACITOR FILTER, RESISTOR PROGRAMMABLE, UNIVERSAL, CDIP20, CERDIP-20, Active Filter visit Linear Technology - Now Part of Analog Devices
LTC1061MS Linear Technology IC TRIPLE SWITCHED CAPACITOR FILTER, UNIVERSAL, PDSO20, PLASTIC, SOL-20, Active Filter visit Linear Technology - Now Part of Analog Devices
LTC1064-2MJ Linear Technology IC SWITCHED CAPACITOR FILTER, BUTTERWORTH, LOWPASS, CDIP14, 0.300 INCH, HERMETIC SEALED, CERDIP-14, Active Filter visit Linear Technology - Now Part of Analog Devices
LTC1064-4MJ/883B Linear Technology IC SWITCHED CAPACITOR FILTER, BUTTERWORTH, LOWPASS, CDIP14, CERDIP-14, Active Filter visit Linear Technology - Now Part of Analog Devices
LTC1064-7MJ#TRPBF Linear Technology IC SWITCHED CAPACITOR FILTER, BESSEL, LOWPASS, CDIP14, LEAD FREE, CERDIP-14, Active Filter visit Linear Technology - Now Part of Analog Devices

electrolytic capacitor PJ 909

Catalog Datasheet MFG & Type PDF Document Tags

electrolytic capacitor PJ 909

Abstract: pj 44 smd diode μF 16 V ceramic 0805 capacitor 470 μF 35 V electrolytic NHG radial capacitor .47 μF/630 VDC metal poly capacitor Tantalum 10 μF 6.3 V 20% SMD capacitor 33000 PF 50 V ceramic X7R 1206 capacitor 4.7 μF 10 V ceramic 0805 capacitor 1 μF 16 V ceramic 0805 capacitor Passivated rectifier 1 A 50 V , ISOGND P2 PJ-002AH-SMT CF2_ISO PGND 3NORM 2 RING 1 TIP ISOPWR CF1_ISO EXT_PWR , battery ½ AA 3.6 V cylinder with leads .1 μF 5 V ceramic X7R 0805 capacitor Supplier/Number
Analog Devices
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electrolytic capacitor PJ 909 pj 44 smd diode SMD diode S4 59 smd diode code pj 51 transistor SMD p23 smd diode code pj 43 EVAL-ADE7166/ADE7169/ADE7566/ADE7569 ADE7569 ADE7166/ADE7169/ADE7566/ADE7569 AN-916 ADE71

PKG 4611 PI

Abstract: POWER SUPPLY BOARD 09 94V0 output, as the power modules have a low energy storage capability. Use an electrolytic capacitor across , and output and between case and input/output is 1,500 V dc (duals = 1,000 V dc) and the capacitor , strongly dependent on the air velocity. Tsub = Pj Where: Pj Tsub Ta Tp Rth s u b - P Rth s u b - A v , d eratin g p. 10 Miscellaneous Characteristics il Pj T c no rm Conditions . unto , i t i c i n Pj Tc norm C oixN tion * Vi = 5 0 V Vj = 5 0 V ; rain . - : *»' 88 8
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PKG 4611 PI POWER SUPPLY BOARD 09 94V0 pJ 1059 MN 6622 pkg 4627 eripower S-164

IC ATA 2388

Abstract: ttl to sinus wave converter capacitor between the input and ou tpu t has a value of 1 nF. Leakage current is less than 5 uA 53 V dc , ») Characteristics Conditions mm = 53 V > > ~ r\ 9p. HO . : : SM X . : ; ' m % n Pj T c , n Pj Tc norm Efficiency Power dissipation HI 3.5 90 N orm al operating case tem perature , pensation is necessary if the source or load inductance is larger than 10 (iH. Use wet electrolytic , filter. Suitable capacitor values are in the range 10-100 nF. Tantalum capacitors are not suitable due to
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IC ATA 2388 ttl to sinus wave converter ATA 2388 pks 4113 PI PKS 4111 PI

PJ 906 lv

Abstract: DS90UH926Q capacitor. DOUT- 19 O, LVDS Inverting Output The output must be AC-coupled with a 100 nF capacitor. 3 www.national.com DS90UH925Q Pin Name DS90UH925Q Pin Name Pin # I/O , Capacitor CAPHS12, CAPP12 CAPL12 17, 14 CAP Decoupling capacitor connection for on-chip regulator. Requires a 4.7uF to GND at each CAP pin. 7 CAP Decoupling capacitor connection for , VDDIO, and a 10uF capacitor to the ground are required (See Figure 20 Typical Connection Diagram).
National Semiconductor
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DS90UH926Q PJ 906 lv LVDS 35-bit SSC DS90UH925QSQX KSV VCO capacitor electrolytic 47uF

PJ 906 lv

Abstract: DS90UH925Q output must be AC-coupled with a 0.1µF capacitor. Inverting Output The output must be AC-coupled with a 0.1µF capacitor. Common Mode Filter. Connect 0.1µF to GND Power to on-chip regulator 3.0 V - 3.6 V , (GND) with at least 9 vias. Decoupling capacitor connection for on-chip regulator. Requires a 4.7uF to GND at each CAP pin. Decoupling capacitor connection for on-chip regulator. Requires two 4.7uF to GND , and Ground VDD33 VDDIO GND 22 30 DAP Power Power Ground Regulator Capacitor CAPHS12, CAPP12 CAPL12
Texas Instruments
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wireless encrypt

CLC925BI

Abstract: CLC925 's Complement 011111111111 011111111110 011111111101 Option # 1 : One 0.1/xF ceramic capacitor at each supply pin, with a 5-10/xF electrolytic or tantalum for each of the three main supply feeds (proximity not critical). Option # 2 : One 0.1 to 0.033 chip capacitor at each supply pin, with a 5-10jiiF electrolytic or , -63 -57 61 56.5 64 60 10.33 9.67 9.84 9.09 1.0 4.0 0 12 150 1.5 0.010 dB dB dBc dBc dBc dBc dB dB , jd d n s pJ£ pue pug S ignal-to-N oise-and-D istortion (dB) a9. < 3 3
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CLC925 LC925 CLC925BI DS925 404KHZ CLC925B8C 10MSPS 35LSB MIL-STD-1772 OP-07

DS90UH302Q

Abstract: DS90UH302 interconnection should be AC Coupled to this pin with a 0.1F capacitor. Inverting Input The interconnection should be AC Coupled to this pin with a 0.1F capacitor. True CML Output Monitor point for equalized , Connect 0.1F capacitor to GND. Power to on-chip regulator 3.0V - 3.6V Requires 4.7F to GND at each VDD pin , , CAPI2S CAPL12 Others NC RES[1:0] Pin # 55, 57, 58 I/O, Type CAP Description Decoupling capacitor connection for on-chip regulator Requires a 4.7F to GND at each CAP pin. Decoupling capacitor connection for
Texas Instruments
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DS90UH302Q DS90UH301Q DS90UH302 DS90UH301 DS90UH302QSQX DS90UH AN-1187 AN-1108 AN-905 SQA60B

DS90UH301Q

Abstract: DS90UH302Q Analog True Output The output must be AC-coupled with a 0.1µF capacitor. Inverting Output The output must be AC-coupled with a 0.1µF capacitor. Common Mode Filter Connect 0.1µF to GND Power to on-chip , . Connect to the ground plane (GND) with at least 9 vias. Decoupling capacitor connection for on-chip regulator. Requires a 4.7µF to GND at each CAP pin. Decoupling capacitor connection for on-chip regulator , Regulator Capacitor CAPHS12, CAPP12 CAPL12 Others NC RES[1:0] 16 18, 15 NC GND 17, 14 7 CAP CAP The VDD
Texas Instruments
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PJ 0399 PJ 2399 DS90UH30 0x00-DES SNLS424 LVDS SSC SQA48A
Abstract: + 20 O, LVDS True Output The output must be AC-coupled with a 0.1µF capacitor. DOUT- 19 O, LVDS Inverting Output The output must be AC-coupled with a 0.1µF capacitor. CMF 23 , ) with at least 9 vias. Regulator Capacitor CAPHS12, CAPP12 17, 14 CAP Decoupling capacitor , capacitor connection for on-chip regulator. Requires two 4.7uF to GND at this CAP pin. 16 NC 18 , (CMF) The serializer provides access to the center tap of the internal termination. A capacitor must Texas Instruments
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SNLS336H RGB888 AEC-Q100 ISO/TS16949
Abstract: + 20 O, LVDS True Output The output must be AC-coupled with a 0.1µF capacitor. DOUT- 19 O, LVDS Inverting Output The output must be AC-coupled with a 0.1µF capacitor. CMF 23 , ) with at least 9 vias. Regulator Capacitor CAPHS12, CAPP12 17, 14 CAP Decoupling capacitor , capacitor connection for on-chip regulator. Requires two 4.7uF to GND at this CAP pin. 16 NC 18 , (CMF) The serializer provides access to the center tap of the internal termination. A capacitor must Texas Instruments
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DS90UR916

Abstract: SNLA132 capacitor. Inverting Output The output must be AC-coupled with a 0.1µF capacitor. Common Mode Filter , . Decoupling capacitor connection for on-chip regulator. Requires a 4.7uF to GND at each CAP pin. Decoupling capacitor connection for on-chip regulator. Requires two 4.7uF to GND at this CAP pin. Do not connect , Regulator Capacitor CAPHS12, CAPP12 CAPL12 Others NC RES[1:0] (1) 16 18, 15 NC GND 17, 14 7 CAP CAP The , capacitor must be placed on this pin for additional common-mode filtering of the differential pair. This can
Texas Instruments
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DS90UR916 SNLA132 SNLS336I

DS90UH

Abstract: DS90UH926Q pin with a 100nF capacitor. RIN- 50 I, LVDS Inverting Input. The interconnection should be AC Coupled to this pin with a 100nF capacitor. CMLOUTP 52 O, LVDS True CML Output , nF capacitor to GND 48, 29 Power Power to on-chip regulator 3.3 V ±10%. Requires 4.7 uF to , vias. Power and Ground VDD33_A, VDD33_B Regulator Capacitor CAPR12, CAPP12, 55, 57 CAP Decoupling capacitor connection for on-chip regulator. Requires a 4.7uF to GND at each CAP pin. CAPL12
National Semiconductor
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ds90uh926 OEN FRC Connector DS90UH926QSQE DS90UB PJ 909

PJ 0399

Abstract: should be AC Coupled to this pin with a 100nF capacitor. Inverting Input. The interconnection should be AC Coupled to this pin with a 100nF capacitor. True CML Output Monitor point for equalized , . Connect 100 nF capacitor to GND Power to on-chip regulator 3.3 V ±10%. Requires 4.7 uF to GND at each VDD , plane (GND) with at least 9 vias. Decoupling capacitor connection for on-chip regulator. Requires a 4.7uF to GND at each CAP pin. Decoupling capacitor connection for on-chip regulator. Requires two 4.7uF
Texas Instruments
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SNLS337E
Abstract: be AC Coupled to this pin with a 0.1 F capacitor. Inverting Input. The interconnection should be AC Coupled to this pin with a 0.1 F capacitor. True CML Output Monitor point for equalized differential , 0.1 F capacitor to GND Power to on-chip regulator 3.0 V ­ 3.6 V. Requires 4.7 uF to GND at each VDD , plane (GND) with at least 9 vias. Decoupling capacitor connection for on-chip regulator. Requires a 4.7uF to GND at each CAP pin. Decoupling capacitor connection for on-chip regulator. Requires two 4.7uF Texas Instruments
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PJ 976 lv

Abstract: DS90UH928Q True Output The output must be AC-coupled with a 0.1µF capacitor. FPD-Link III Serial Interface DOUT , AC-coupled with a 0.1µF capacitor. Common Mode Filter. Connect 0.1µF to GND (required) Power to on-chip regulator 3.0 V - 3.6 V. Each pin requires a 4.7µF capacitor to GND LVCMOS I/O Power 1.8 V ±5% OR 3.0 V - 3.6 V. Each pin requires 4.7µF capacitor to GND Large metal contact at the bottom center of the device package Connect to the ground plane (GND) with at least 9 vias. Decoupling capacitor connection for
Texas Instruments
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DS90UH928Q PJ 976 lv DS90UB926 AN-2198 AN2198 DS90UR916Q DS90UH927Q SQA40A

PJ 976 lv

Abstract: True Output The output must be AC-coupled with a O .1 I capacitor. Copyright 11999-2012, Texas , a 0 . 1 I capacitor. CMF 20 Analog Common Mode Filter. Connect 0.1 Iff to GND (required) 19 26 Power Power to on-chip regulator 3.0 V - 3.6 V. Each pin requires a 4.7® capacitor to , capacitor to GND GND DAP Ground Large metal contact at the bottom center of the device package , Regulator Capacitor CAPP12 CAPHS12 CAPLVD12 CAPL12 12 14 28 CAP Decoupling capacitor
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LVDS bridge 18bit

Abstract: AN-2198 True Output The output must be AC-coupled with a 0.1µF capacitor. FPD-Link III Serial Interface DOUT , AC-coupled with a 0.1µF capacitor. Common Mode Filter. Connect 0.1µF to GND (required) Power to on-chip regulator 3.0 V - 3.6 V. Each pin requires a 4.7µF capacitor to GND LVCMOS I/O Power 1.8 V ±5% OR 3.0 V - 3.6 V. Each pin requires 4.7µF capacitor to GND Large metal contact at the bottom center of the device package Connect to the ground plane (GND) with at least 9 vias. Decoupling capacitor connection for
Texas Instruments
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LVDS bridge 18bit

k937

Abstract: "power sourcing equipment" top, low-k / high-k board, natural convection, TJ = TTOP + (JT x PJ). Use JT to validate TJ from , 2.1 2.4 RCLS = 243 9.9 10.4 10.9 RCLS = 137 17.6 18.5 19.4 RCLS = 90.9 , converter bias voltage. Connect a 0.47 F (minimum) ceramic capacitor to ARTN at the pin, and a larger capacitor to power startup. GAT2 7 O Gate drive output for a second dc/dc converter switching , . Bypass with a 0.1 F capacitor and protect with a TVS. DEN 13 I/O PPD 14 I Raising
Texas Instruments
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TPS23757 TSSOP-20 k937 EN61000-4-2 SMAJ58A TLV431 SLVS948B TPS23754/6
Abstract: convection, TJ = TTOP + (JT x PJ). Use JT to validate TJ from measurements. JEDEC method with low-k board (1 , Classification current, applies to both cycles RCLS = 243 RCLS = 137 RCLS = 90.9 RCLS = 63.4 VCL_ON VCL_H , converter switching MOSFET. DC/DC converter bias voltage. Connect a 0.47 F (minimum) ceramic capacitor to ARTN at the pin, and a larger capacitor to power startup. Gate drive output for a second dc/dc , a 0.1 F capacitor and protect with a TVS. Connect a 24.9 k resistor from DEN to VDD to provide the Texas Instruments
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SLVS948C

"power sourcing equipment"

Abstract: pj 86 diode / high-k board, natural convection, TJ = TTOP + (JT x PJ). Use JT to validate TJ from measurements. JEDEC , current, applies to both cycles RCLS = 243 RCLS = 137 RCLS = 90.9 RCLS = 63.4 VCL_ON VCL_H VCU_OFF , bias voltage. Connect a 0.47 F (minimum) ceramic capacitor to ARTN at the pin, and a larger capacitor , input power rail. VDD powers the PoE interface circuits. Bypass with a 0.1 F capacitor and protect with , 12.95 25.5 RESISTOR () 1270 243 137 90.9 63.4 Not allowed prior to IEEE 802.3at. Maximum type 2 hardware
Texas Instruments
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pj 86 diode
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