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Part Manufacturer Description Datasheet BUY
PCM2903CDB Texas Instruments Stereo USB1.1 CODEC with line-out and S/PDIF I/O, Self-powered (HID Interface) 28-SSOP -25 to 85 visit Texas Instruments
PCM2903E Texas Instruments Stereo USB1.1 CODEC with line-out and S/PDIF I/O, Self-powered (HID Interface) 28-SSOP 0 to 70 visit Texas Instruments
PCM2906CDB Texas Instruments Stereo USB CODEC with line out and S/PDIF, Bus-powered 28-SSOP -25 to 85 visit Texas Instruments
PCM2902E/2K Texas Instruments Stereo USB1.1 CODEC with line-out and S/PDIF I/O, Bus-powered (HID Interface) 28-SSOP 0 to 70 visit Texas Instruments
PCM2902E Texas Instruments Stereo USB1.1 CODEC with line-out and S/PDIF I/O, Bus-powered (HID Interface) 28-SSOP 0 to 70 visit Texas Instruments
PCM2902EG4 Texas Instruments Stereo USB1.1 CODEC with line-out and S/PDIF I/O, Bus-powered (HID Interface) 28-SSOP 0 to 70 visit Texas Instruments

RESISTOR CR25 philips

Catalog Datasheet MFG & Type PDF Document Tags

PM7520

Abstract: RESISTOR CR25 (ZC = 102 ) 23.4 × 1.0 mm2 R1 = R3 10 (±5%) carbon resistor CR25 type R2 33 (±5%) carbon resistor CR25 type R4 220 power metal film resistor PR37 type R5 18 (±5% , ) carbon resistor CR25 type R8 1.8 k (±5%) carbon resistor CR25 type D1 Table 8 multilayer , and BLW33 Application Note ECO7806 R1 = R3 10 (±5%) carbon resistor CR25 type R2 33 (±5%) carbon resistor CR25 type R4 220 (±5%) power metal film resistor PR37 type
Philips Semiconductors
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BLW32 PM7520 RESISTOR CR25 RESISTOR pr37 RESISTOR CR25 philips CR25 resistor PM3260 SCA57

RESISTOR CR25 philips

Abstract: philips resistor CR25 bias circuit for a single transistor BLV33F R1 150 carbon resistor CR25 type R2 100 preset potentiometer CTP10 type R3 10 carbon resistor CR25 type R4 1000 carbon resistor CR25 type R5 = R6 = R7 1.8 rectangular wirewound resistor EH707 type R8 = R9 180 carbon resistor CR25 type R10 33 carbon resistor CR25 type C1 = C3 100 nF metallized , transistors BLV33F ECO8005 Philips Semiconductors A wide-band class-A linear power amplifier (174 -
Philips Semiconductors
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philips resistor CR25 hp778d pm5171 BZY 56 cr25 philips 2222-809-05002

hp778d

Abstract: pm5171 : Class A bias circuit for a single transistor BLV33 R1 150 carbon resistor CR25 type R2 100 preset potentiometer CTP10 type R3 10 carbon resistor CR25 type R4 1000 carbon resistor CR25 type R5 = R6 = R7 1.8 rectangular wirewound resistor EH707 type R8 = R9 180 carbon resistor CR25 type R10 33 carbon resistor CR25 type C1 = C3 100 nF metallized , transistors BLV33 ECO7904 Philips Semiconductors A wide-band class-A linear power amplifier (174 -
Philips Semiconductors
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MGP990 2222-121 philips capacitor cross reference PR52 L1822 BD136

linear amplifier 470-860

Abstract: PM3260 ; CR25 type R7 = 33 (±5%) carbon resistor; CR25 type R9 = 220 (±5%) power metal film , potentiometer R13 = 120 (±5%) carbon resistor; CR25 type R14 = 1.8 k (±5%) carbon resistor; CR25 , ECO7901 Philips Semiconductors A wide-band linear power amplifier (470 - 860 MHz) with two , Application Note ECO7901 Philips Semiconductors A wide-band linear power amplifier (470 - 860 MHz , Philips Semiconductors A wide-band linear power amplifier (470 - 860 MHz) with two transistors BLW34
Philips Semiconductors
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linear amplifier 470-860 HP8620C HP86222A an blw32 33 PR37 RESISTOR enamelled copper wire tables

4c6 toroids

Abstract: Design of H.F. Wideband Power Transformers AN98030 Philips Semiconductors Two-stage wideband HF linear amplifier for 400 W PEP using BLW96 , Philips Semiconductors Two-stage wideband HF linear amplifier for 400 W PEP using BLW96 and BLW50F , amplifiers are combined using direct inter-stage impedance transformation. 1998 Mar 23 3 Philips , earthed via a 2.2 resistor. It is preferable in realising C4 and C5, to employ three capacitors of 470 , of two transformers each using a separate core. 1998 Mar 23 4 Philips Semiconductors
Philips Semiconductors
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4c6 toroids Design of H.F. Wideband Power Transformers Philips Application Note ECO6907 4C6 toroid 2222 632 ECO6907

philips resistor CR37

Abstract: RESISTOR CR25 philips resistor art. They are particularly well suited to those appli­ cations that require significantly , Philips Components Dim ensions Inches (m m )â'"see diagram Power Rating (7 0 °C ) R esistance R ange (O hm s)* R esistance Tolerance M ax. Voltage (Volts) 5043CX-J (CR25) 1/4W , . (0.039") when both sides are added together. 488 Philips Com ponents â'¢ A irp o rt Road, RO. Box 7 , voltage for 1 min. between terminals of resistor and metal fo il.no breakdown or flashover
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OCR Scan
philips resistor CR37 philips cr25 resistor philips resistors cr37 cr37 resistor RS-196A 470K0 49R90 499R0 1K000

MRS16T

Abstract: WR0825 Philips Components Leaded resistors General Introduction which will cause a resistor to fail by , voltage ( Vmax) as a function of pulse duration (ti) for a typical resistor. 1996 Nov 15 6 Philips , Philips Components Leaded resistors General Introduction INTRODUCTION FUNCTIONAL , rise in a resistor due to power dissipation, is determined by the laws of heat - conduction, convection and radiation. The maximum body temperature usually occurs in the middle of the resistor and is
Philips Components
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MRS16T WR0825 WR0865 MR25 resistor resistor MR25 philips PHILIPS mpr24 MR24E/C/D MR34E/C/D MR54E/C/D MR74E/C/D MPR24 MPR34

philips thermistor 2322 642

Abstract: varistor 593 ph Potentiom eter Focus Potentiom eter SM D Resistor Ceram ic Disc Cap SM D Resistor PHILIPS Series , C LH 39 CM S CN CR25 CRC 10 CRC12 CRC-17 CS4 CSA CSC CSF CST CSU CT-20 CT-6 CT-96 CW CY CZ D DC DD , FRC01 GAP HRCOl Description A .< ' a i Ceram ic Cap Resisto? W uew ou na Resistor W irew ound Resistor W irew ound Resistor W irew ound Resistor W irew ound Resistor W irew ound Resistor W irew ound Resistor W irew ound Resistor Alum. Electro lytic Cap Alum Electro lytic Cap Page 24 94 97 97 97 97 97
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OCR Scan
philips thermistor 2322 642 varistor 593 ph LM 2222 2222 031 capacitor philips philips thermistor 2322 640 Philips 3188 capacitor AHT118 AML138 ARC24I AS030 AS031 ASD117

MEPCO

Abstract: mepco capacitor Ceramic Multilayer Chip Capacitor CE-FA054 PHILIPS MEPCO: CR25/5043CX CF25 Carbon film resistor CF-FA004 PHILIPS MEPCO: CR37/5053CX CF50S Carbon film resistor CF-FA004 PHILIPS MEPCO: HC2106 CL061 , PHILIPS MEPCO: SFR55,5043E, MR25 GP55 Metal film resistor color-banded axial lead RN55, RL07 GP-GPS-FP-FA020 PHILIPS MEPCO: SFR60,5073E, MR30 GP60 Metal film resistor color-banded axial lead RN60, RL20 GP-GPS-FP-FA020 PHILIPS MEPCO: 9C0603, RC21 MC0603 Thick film chip resistor MC-FA033 PHILIPS MEPCO: 9C0805
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YCN104 MEPCO mepco capacitor mepco RESISTOR RCL 7010 DALE SOMC1603 toko rcl CL-C-FA032 CL062 CL063 CL081 CL082 CL083

ADRF6850

Abstract: T5.5 murata filtering the CP output voltage. Charge Pump Current Set. Connecting a resistor between this pin and , is referred to as autocalibration. The autocalibration time is set by Register CR25. UP U1 , where: BSCDIV = Register CR25, Bits[7:0]. PFD = PFD frequency. CLR2 DOWN D2 Q2 For a PFD
Analog Devices
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ADRF6850 T5.5 murata FEC150-411 BD163 ITW McMurdo Connectors phycomp 2010 resistors BD1631J50100A00 MO-220-VLLD-2 081809-B CP-56-5 ADRF6850BCPZ
Abstract: derived from filtering the CP output voltage. Charge Pump Current Set. Connecting a resistor between , . This is referred to as autocalibration. The autocalibration time is set by Register CR25. U1 +IN , : BSCDIV = Register CR25, Bits[7:0]. PFD = PFD frequency. CLR2 DOWN D2 Q2 For a PFD frequency of Analog Devices
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ADRF6850BCPZ-R7 EVAL-ADRF6850EB1Z D09316-0-10/10
Abstract: . Connecting a resistor between this pin and ground sets the maximum charge pump output current. The , set by Register CR25. Autocalibration Time = (BSCDIV × 28)/PFD (3) Rev. PrD | Page 19 of 43 ADRF6755 where: BSCDIV = Register CR25, Bits[7:0]. PFD = PFD frequency. For a PFD frequency of 40 MHz, set , based on Figure 61, an error of 12 mV occurs due to the 240 µA current flowing through the 50 resistor Analog Devices
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N100M CR0603-FX-472 CR0402-JW-510 CR0805-JW-331 CR0805-JW-101 041807-B

PLL 2400 MHZ

Abstract: from filtering the CP output voltage. Charge Pump Current Set. Connecting a resistor between this pin , updated. This is referred to as autocalibration. The autocalibration time is set by Register CR25. Autocalibration Time = (BSCDIV × 28)/PFD where: BSCDIV = Register CR25, Bits[7:0]. PFD = PFD frequency. For a PFD
Analog Devices
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PLL 2400 MHZ CP-56-3 ADRF6755ACPZ ADRF6755ACPZ-R7 EVAL-ADRF6755SDZ D10465-0-7/12

ADRF6755ACP

Abstract: Multicomp capacitors . Connecting a resistor between this pin and ground sets the maximum charge pump output current. The , . The autocalibration time is set by Register CR25. Autocalibration Time = (BSCDIV × 28)/PFD where: BSCDIV = Register CR25, Bits[7:0]. PFD = PFD frequency. For a PFD frequency of 40 MHz, set BSCDIV = 100
Analog Devices
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ADRF6755ACP Multicomp capacitors adrf67 CP-56-4 D10465-0-11/12

transistor prc 406

Abstract: molex junction box . Connecting a resistor between this pin and ground sets the maximum charge pump output current. The , set by Register CR25. Autocalibration Time = (BSCDIV × 28)/PFD (3) Rev. PrC | Page 19 of 43 ADRF6755 where: BSCDIV = Register CR25, Bits[7:0]. PFD = PFD frequency. For a PFD frequency of 40 MHz, set , based on Figure 61, an error of 12 mV occurs due to the 240 µA current flowing through the 50 resistor
Analog Devices
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transistor prc 406 molex junction box TX-508 YAGEO TYPE CR25 ADRF6755-EVALZ PR10465-0-1/12

ITU-R601

Abstract: TC90A58F Function AD input Notes Connect 0.47-µF capacitor and 20- resistor. Analog power supply AD input Clock output Connect 0.47-µF capacitor and 20- resistor. Ground to AVSS (pin 14 , PVSS HPLL GND Connecta 1-µF capacitor and a 1.0-k resistor. LFIL HPLL filter , with above capacitor and resistor. 20 BFIL For stabilization Connect 0.01-µF capacitor , Internal, for output PAD Connect 0.47-µF capacitor and 20- resistor. Ground to AVSS (pin 69) via
Toshiba
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TC90A58F ITU-R601 CB770 ITU-R656 000707EBA1
Abstract: . Charge Pump Current Set. Connecting a resistor between this pin and ground sets the maximum charge pump Analog Devices
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Abstract: . Connecting a resistor between this pin and ground sets the maximum charge pump output current. The , updated. This is referred to as autocalibration. The autocalibration time is set by Register CR25. Autocalibration Time = (BSCDIV × 28)/PFD where: BSCDIV = Register CR25, Bits[7:0]. PFD = PFD frequency. For a PFD Analog Devices
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D10465-0-4/13
Abstract: AD input Notes ¾ Connect 0.47-mF capacitor and 20-W resistor. ¾ Analog power supply AD , -W resistor. ¾ Ground to AVSS (pin 14) via 0.1-mF capacitor. ¾ Outputs clock with amplitude of 1 Vp-p , default values, outputs are fixed to L. ¾ Connecta 1-mF capacitor and a 1.0-kW resistor. LFIL  , -mF capacitor in parallel with above capacitor and resistor. 20 BFIL ¾ For stabilization , output PAD ¾ Connect 0.47-mF capacitor and 20-W resistor. ¾ Ground to AVSS (pin 69) via 0.1 Toshiba
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CCIR601/656

0M10B

Abstract: ITU-R601 input Notes Connect 0.47-µF capacitor and 20- resistor. Analog power supply AD input Connect 0.47-µF capacitor and 20- resistor. Ground to AVSS (pin 14) via 0.1-µF capacitor. Outputs , PVSS HPLL GND Connecta 1-µF capacitor and a 1.0-k resistor. LFIL HPLL filter , with above capacitor and resistor. 20 BFIL For stabilization Connect 0.01-µF capacitor , Internal, for output PAD Connect 0.47-µF capacitor and 20- resistor. Ground to AVSS (pin 69) via
Toshiba
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0M10B CB454 toshiba "non-linear filter"
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