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Part Manufacturer Description Datasheet BUY
X9520B20I-BT1 Intersil Corporation DIGITAL POTENTIOMETER, PBGA20, XBGA-20 visit Intersil
X9520B20I-AT1 Intersil Corporation DIGITAL POTENTIOMETER, PBGA20, XBGA-20 visit Intersil
X9520V20I-AT1 Intersil Corporation DIGITAL POTENTIOMETER, PDSO20, PLASTIC, TSSOP-20 visit Intersil
X9319WS8ZT1 Intersil Corporation Digitally Controlled Potentiometer (XDCP™); SOIC8; Temp Range: See Datasheet visit Intersil Buy
X9520V20I-A Intersil Corporation DIGITAL POTENTIOMETER, PDSO20, PLASTIC, TSSOP-20 visit Intersil
X9520B20I-A Intersil Corporation DIGITAL POTENTIOMETER, PBGA20, BGA-20 visit Intersil

Cf b-502 potentiometer

Catalog Datasheet MFG & Type PDF Document Tags

B 504 Potentiometers

Abstract: potentiometer 502 . Terminal Style: C = Through-Hole, Top Adjust. CF = Through-Hole, Bottom Adjust. TOCOS Series Name. Part , 20% Potentiometer Styles G4C Through-Hole, C Terminal Style, Single-Slot, Top Adjust 50 100 200 , 102 202 502 103 203 503 104 204 504 105 205 G4C G4C G4C G4C G4C G4C G4C G4C G4C G4C G4C G4C G4C - B 101 B 201 B 501 B 102 B 202 B 502 B 103 B 203 B 503 B 104 B 204 B 504 B 105 - K K K K K K K K K K K K , 201 501 102 202 502 103 203 503 104 204 504 105 205 M M M M M M M M M M M M M M M G4C G4CF
TOCOS America
Original

B-502 potentiometer 60

Abstract: l06d 5.00.3 #2 1.2 0.3 4.5 503 #3 G4CF Through-Hole, CF Terminal Style, Single-Slot, Bottom , 0.15 0.85 2.5 Recommended PCB Layouts CF Pin-Out #2 Unit: mm Ø 1.0 max. (3 holes , Taper: B = Linear. Terminal Style: C = Through-Hole, Top Adjust. CF = Through-Hole, Bottom Adjust. TOCOS , % Resistance Tolerance 20% Potentiometer Styles G4C Through-Hole, C Terminal Style, Single-Slot, Top Adjust , 101 201 501 102 202 502 103 203 503 104 204 504 105 205 G4C G4C G4C G4C G4C G4C G4C G4C G4C G4C G4C
TOCOS America
Original

philips catalog potentiometers

Abstract: trimmer potentiometer bottom adjust (2) 0.8 (0.34) 0.15 G43CF Through-Hole, CF Terminal Style, Cross-Slot, Bottom Adjust (t , Pin-Out #2 6.0 CF Pin-Out #2 Unit: mm 5.0 Ø 1.0 Ø 1.0 max. (3 holes) max. (3 holes , : Through-Hole where C = Top Adjust; CF = Bottom Adjust. TOCOS Series Name. Part Numbers Nominal Resistance Value ( ) Code Resistance Tolerance 20% Catalog No. Bulk Potentiometer Styles G43C Through-Hole, C , 200,000 500,000 1,000,000 2,000,000 100 200 500 101 201 501 102 202 502 103 203 503 104 204 504 105
TOCOS America
Original
philips catalog potentiometers trimmer potentiometer bottom adjust 200VDC 500VDC 500VAC

ipc 502

Abstract: tocos potentiometer G43CF Through-Hole, CF Terminal Style, Bottom Adjust (t= 0.18) 5.00.3 1.2 0.15 #2 (.84 , 0.2 (2) 0.8 2.5 0.15 0.3,0 Recommended PCB Layouts C Pin-Out CF Pin-Out #2 #2 , . Terminal Style: Through-Hole where C = Top Adjust; CF = Bottom Adjust. TOCOS Series Name. Part Numbers Resistance Tolerance 20% Nominal Resistance Value ( ) Code Potentiometer Styles Catalog No , 500 101 201 501 102 202 502 103 203 503 104 204 504 105 205 B B B B B B B B B
TOCOS America
Original
ipc 502 tocos potentiometer CF RH MARKING CODE B 103 potentiometer B 504 Potentiometers trimmer 205

9845P

Abstract: Z045 oscillations in amplifiers whose gain-bandwidth is greater than 5 MHz A typical cure is to add a capacitor Cf , frequency response The ratio Cf CIN is made equal to RIN Rf 8 EL2082C Current-Mode Multiplier , voltage-mode op-amps the same concern about capacitance at the summing node exists so Cf and CIN should be , set for the overall circuit gain required Sometimes a very small Cf can be used to improve loop , capacitance necessitates the inclusion of Cf to prevent a feedback pole Because of this 12 pF capacitance at
Elantec
Original
EL2082 9845P Z045 CCII APPLICATION 2082 e503 a95x Z0450

CCII

Abstract: FR E500 whose gain-bandwidth is greater than 5 MHz. A typical cure is to add a capacitor Cf in the 2 pF-10 pF , response. The ratio Cf/Ciu is made equal to RjN/Rf. 4-11 EL2082C Current-Mode Multiplier Applications , capacitance at the summing node exists, so Cf and Cjkj should be used. As before, current-feedback amplifiers , > then Rin is set for the overall circuit gain required. Sometimes a very small Cf can be used to improve , inclusion of Cf to prevent a feedback pole. Because of this 12 pF capacitance at the op-amp -input
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OCR Scan
EL2082CN EL2082CS CCII FR E500 QCX0002 MDF0031 MDP0027 1000P

2082c

Abstract: dc to ac converter schematic using op-amp greater than 5 MHz. A typical cure is to add a capacitor Cf in the 2 pF-10 pF range. This will reduce overall bandwidth, so a capacitor Cjn can be added to regain frequency response. The ratio Cf/CiN is made , summing node exists, so Cf and Cin should be used. As before, current-feedback amplifiers tend to solve , . Sometimes a very small Cf can be used to improve loop stability, but it often must be in series with another , Cf to prevent a feedback pole. Because of this 12 pF capacitance at the op-amp -input
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OCR Scan
EL2082CJ EL2082J 2082c dc to ac converter schematic using op-amp 503 Variable Resistor 31ESSS7 EL2082A MDP0031 MDP0015

GF06P

Abstract: TRIMMERS 3006P 503 specializing in quality potentiometer products. Established in 1957 TOCOS has kept pace with , the demands , Triangular: C & CF Triangular: W & S In-Line: U & V Triangular, 15mml : P & W Triangular, 5mml : S & , Potentiometer Styles G3A J-Hook, Single-Slot, Top Adjust 50 100 200 500 1,000 2,000 5,000 10,000 20 , G3AT G3AT G3AT G3AT G3AT G3AT G3AT G3AT G3AT 500 101 201 501 102 202 502 103 203 , 202 502 103 203 503 104 204 504 105 205 M M M M M M M M M M M M M M M G3A
TOCOS America
Original
GF06P TRIMMERS 3006P 503 g4bt 8026EKW GF06 B 503 K

DYMEC fiber

Abstract: IR receiver for 500kHz capacitors should be mounted as close as possible to the power supply pins of the 5501 or 5502. potentiometer , Gain Calibra tion The V/F OFFSET adjustment potentiometer should be a 20KQ, 10-turn u n it. With this , 3.5MHz 5MHz -3dB Freq., (OV to-10V) VoUT -0.01V -1,00V -3.0V -5.0V -7.0V -10.0V CF =330pF 0.6V 0.6V 0.6V 0.5V 0.5V 0.3V 80kHz CF =66pF 2.2V 2.2V 1.2V 0.8V 0.6V 0.4V 470kHz CF =33pF 2.2V 2.2V 1.3V 0.8V 0.6V 0.4V 488kHz CF =470pF//10KQ 450mV 450mV 400mV 275mV 200mV 110mV CF =33pF//10K£2 3.9V 3.9V 1.9V 0.9V
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OCR Scan
DYMEC fiber IR receiver for 500kHz Dymec frequency to voltage receiver

op-amp- 356

Abstract: bjn 8-lead gain-bandwidth is greater than 5 MHz. A typical cure is to add a capacitor Cf in the 2 pF-10 pF range. This will reduce overall bandwidth, so a capacitor Cjn can be added to regain frequency response. The ratio Cf/CiN , about capacitance at the summing node exists, so Cf and Cin should be used. As before, current-feedback , set for the overall circuit gain required. Sometimes a very small Cf can be used to improve loop , stray capacitance necessitates the inclusion of Cf to prevent a feedback pole. Because of this 12 pF
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OCR Scan
op-amp- 356 bjn 8-lead QCX000X Variable Resistors BI 502 8S-26 MDP0028 0D055 3121S57
Abstract: oscillations in amplifiers whose gain-bandwidth is greater than 5 MHz. A typical cure is to add a capacitor Cf , capacitance at the summing node exists, so Cf and Cjn should be used. As before, current-feedback amplifiers , re quired. Sometimes a very small Cf can be used to improve loop stability, but it often m ust be in , necessitates the inclusion of Cf to prevent a feedback pole. Because of this 12 pF capacitance at the op-amp , the potentiometer. When the potentiometer's wiper is fully down, the slightly negative voltage at the -
OCR Scan
31S1557 T0-220 0D055E 3121SS7

biquad filter using op-amp

Abstract: EL2020 CF and CIN should be used. As before, current-feedback amplifiers tend to solve the problem , parallel with stray capacitance necessitates the inclusion of CF to prevent a feedback pole. Because of , gains is unity, as controlled by the potentiometer. When the potentiometer's wiper is fully down, the , - 1V 2 ( R + 95 )C At 50% potentiometer setting, equal error output signals flow from the , resistor regardless of potentiometer setting, so frequency response is stable for all gain settings. A
Intersil
Original
biquad filter using op-amp EL2020 EL2130 FN7152 150MH ISO9000

910ft

Abstract: whose gain-bandwidth is greater than 5 MHz. A typical cure is to add a capacitor Cf in the 2 p F -1 0 pF , capacitance at the summing node exists, so Cf and Ci n should be used. As before, current-feedback amplifiers , gain re quired. Sometimes a very small Cf can be used to improve loop stability, but it often must be , necessitates the inclusion of Cf to prevent a feedback pole. Because of this 12 pF capacitance at the op-amp , respective path gains is unity, as controlled by the potentiometer. When the potentiom eter's wiper is fully
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910ft

MCP4018

Abstract: DS01316 Increased reliability vs mechanical potentiometer · BOM consolidation ­ one op amp and one digital potentiometer supporting the various sensor options This Application Note will discuss implementations of programmable gain circuits using an op amp and a digital potentiometer. This discussion will include implementation details for the digital potentiometer's resistor network. It is important to understand these , ). The feedback capacitor (CF) may be used if additional circuit stability is required. These
Microchip Technology
Original
AN1316 MCP4018 DS01316 MCP4017 MCP4561 MCP40 MCP4542 DS01316A-
Abstract: Potentiometer The MOD POT® concept consists of standardized potentiometer modules that can be mixed and , potentiometer concept in response to requests from design engineers who wanted virtually unlimited variety in , ° C, the potentiometer torque will be 0.5 inch-ounce (3,5 mN-m) minjmum while the maximum is , tolerances - I tot Mukfe4, CF: ±10% or ±20%; Cermet - ±5% or ±10%. Voltage â'" 350 volts maximum , D Measured from mounting surface of the potentiometer in inches and sixty-fourths. Use a three -
OCR Scan

gs e501

Abstract: gain-bandwidth is greater than 5 MHz. A typical cure is to add a capacitor Cf in the 2 p F -1 0 pF range. This , summing node exists, so Cf and C jn should be used. As before, current-feedback amplifiers tend to solve , circuit gain re­ quired. Sometimes a very small Cf can be used to improve loop stability, b u t it often , stray capacitance necessitates the inclusion of Cf to prevent a feedback pole. Because of this 12 pF , potentiometer. When the potentiom eterâ'™s wiper is fully down, the slightly negative voltage a t the Vg of the
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gs e501 312TSS7 0D03276 312T557 000327T

thermistor TH101

Abstract: CR102 zener diode illustrate the use of a Intersil XDCP® (Digitally Controlled Potentiometer) in the design of switching , industrial, consumer, and communication systems. A digitally controlled or electronic potentiometer , Controlled Potentiometer Switching Power Supply Front End Power Mesh Secondary Control Primary Control , Potentiometer The Intersil XDCP device is a potentiometer whose wiper position is computer or digitally , diagram of a typical XDCP IC is shown in Figure 1. The analog potentiometer is a variable three-terminal
Intersil
Original
thermistor TH101 CR102 zener diode Pulse Transformer c308 phillips BC series transistors 204T250 CNY17-2Z AN139 X9315 C108/C107 C105/C106

thermistor TH101

Abstract: pin diagram of ic 7493 of a Xicor XDCP® (Digitally Controlled Potentiometer) in the design of switching power supply. A , , consumer, and communication systems. A digitally controlled or electronic potentiometer overcomes many of , Potentiometer Switching Power Supply Front End Power Mesh Secondary Control Primary Control II. DETAILED , . THEORY OF OPERATION Switching Power Supply Digitally Controlled Potentiometer The Xicor XDCP device is a potentiometer whose wiper position is computer or digitally controlled. The XDCP device
Xicor
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pin diagram of ic 7493 240vac to 12vdc rectifier circuit 120vac to 12vdc schematic diagram CR25 resistor AMPLIFIER U201 sr215a471jaa X24C16

PLL FSK DEMODULATOR

Abstract: 2211 and the PLL phase detector output (pin 11). This data filter is formed by RF and CF of Figure 1. The , the low or "on" state. RB 510K Loop f-Detector RF 100K (11) +VS (8) R1 CF , connecting a potentiometer, Rx, in series with R0 at pin 12 (see Figure 2). Loop Phase Detector , damping factor. CF and RF form a one pole post-detection filter for the FSK data output. The resistor RB , normally finetuned with the series potentiometer, RX. 3. Calculate value of C0 from Design Equation
Fairchild Semiconductor
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RC2211A RC2211AN PLL FSK DEMODULATOR 2211 quadrature detector comparator detector FSK DEcoder fsk modem RC2211AM RV2211AN RV2211AM DS30002211A

RC2211A

Abstract: RC2211AN and the PLL phase detector output (pin 11). This data filter is formed by RF and CF of Figure 1. The , the low or "on" state. RB 510K Loop -Detector RF 100K (11) +VS (8) R1 CF , : F = RFCF 7. VCO Frequency Adjustment VCO can be fine tuned by connecting a potentiometer, Rx , . CF and RF form a one pole post-detection filter for the FSK data output. The resistor RB (510 k , finetuned with the series potentiometer, RX. 3. Calculate value of C0 from Design Equation No. 1 or
Raytheon
Original
DS2002211A
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