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Part Manufacturer Description Datasheet BUY
LT5554IUH#TRPBF Linear Technology LT5554 - Broadband Ultra Low Distortion 7-Bit Digitally Controlled VGA; Package: QFN; Pins: 32; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
LTC6412CUF#TRPBF Linear Technology LTC6412 - 800MHz, 31dB Range Analog-Controlled VGA; Package: QFN; Pins: 24; Temperature Range: 0°C to 70°C visit Linear Technology - Now Part of Analog Devices Buy
LTC6412CUF#PBF Linear Technology LTC6412 - 800MHz, 31dB Range Analog-Controlled VGA; Package: QFN; Pins: 24; Temperature Range: 0°C to 70°C visit Linear Technology - Now Part of Analog Devices Buy
LTC6412IUF#PBF Linear Technology LTC6412 - 800MHz, 31dB Range Analog-Controlled VGA; Package: QFN; Pins: 24; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
LT5554IUH#PBF Linear Technology LT5554 - Broadband Ultra Low Distortion 7-Bit Digitally Controlled VGA; Package: QFN; Pins: 32; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
LTC6412IUF#TRPBF Linear Technology LTC6412 - 800MHz, 31dB Range Analog-Controlled VGA; Package: QFN; Pins: 24; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy

3 pins Variable resistor 10K ohm through hole

Catalog Datasheet MFG & Type PDF Document Tags

Robinson Nugent PAK-50

Abstract: resistor 270 ohm 3 17 ERJ-6ENF13.0 Panasonic or Equivalent Resistor 13.0 Ohm 1% Thick Film 0805 Package , 3 21 ERJ-6GEYJ2.2KV Panasonic or Equivalent Resistor 2.2K Ohm 5% Thick Film 0805 Package , 1 23 ERJ-6GEYJ1.0KV Panasonic or Equivalent Resistor 1.0K Ohm 5% Thick Film 0805 Package 4 24 ERJ-6GEYJ10KV Panasonic or Equivalent Resistor 10K Ohm 5% Thick Film 0805 Package , Speed Serial Receiver, 52 pin PQFP 1 3 IVA-05208 Hewlett Packard MMIC 1.5GHz Variable
Applied Micro Circuits
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MINISMDC035-2 Robinson Nugent PAK-50 resistor 270 ohm ECU-V1H100DCN 3 pins Variable resistor 10K ohm through hole ECU-V1H471JCX EPM9320ARC208-10 ERJ-6GEYJ270V P50E-026-P1-SR1-TG PAK-50 P25E-026-S-TG 160-1169-1-ND 160-1170-1-ND

mac232

Abstract: LM2596S-ADJ resistors LED's and variable resistor on user connectors MCU 2.5V and VDDPLL pins (When VDDR = 0V) Only , . 3 2.1 POWER SUPPLY CONFIGURATION , ) . 24 2.14 TERMINATION RESISTOR CONTROL (J28 , ). 25 3. DEFAULT JUMPER SUMMARY TABLE , . 3 FIGURE 2-2 2.1MM POWER CONNECTOR
Freescale Semiconductor
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MAC7100 mac232 LM2596S-ADJ AMD socket fm1 pinout MAX232 smd RS232 MAX232 smd htc LM2596 MAC7100EVB RE11505F 63A11505S

PCB 2675 inverter

Abstract: 3 phase inverter schematic diagram for 10Hp motor Control interface connector 380 - 480 V 3-phase input IRPT5051C variable frequency/ voltage , conversion function for a 15hp (11kW) variable frequency AC motor controller. It contains a 3-phase input , modulated (PWM) 3-phase, variable frequency, variable voltage controlled by externally generated , switched on, the charging current of the dc bus capacitors is limited by a 100 Ohm precharge resistor , is switched off, the `top' bus capacitor is discharged by a 10k resistor. The `lower' bus
International Rectifier
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PCB 2675 inverter 3 phase inverter schematic diagram for 10Hp motor 11kw AC MOTOR CONNECTOR DIAGRAM 1.5 hp DC motor speed control using pwm CN6B pwm inverter output filter schematic IRPT5051 480VAC

PTC THERMISTOR TDK

Abstract: inductor 220 mh resistor) >50 to 100% of Vout < 3 Vpp (dependent on Cout) $3% < 1 sec typical to 50% of load 90 W Two , 470pF C13 33nF R22 10K 9 11 SPP11N80C3 SFH615A-4 U2 1 4 3 D9 2 R21 R16 TBD MMSD 4148 10K + Z2 100k C10 1nF 2.2K R14 R13 C29 0.1 4.7 ohm , this mode, the external dimming card is not required and a jumper should be placed across pins 2 and 3 , through resistor divider R34 and R35 and presented to the inverting input of this op-amp section. The
ON Semiconductor
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NCL30001 NCS1002 PTC THERMISTOR TDK inductor 220 mh 4148 vishay smd WE-MIDCOM LM324DG AND8470/D AND8427

PWM based DC to AC 3 phase Inverter Circuits

Abstract: schematic diagram PWM inverter voltage source inverter efficiency. The power level interfaces to the Driver-Plus Board through solder pins, minimizing , Ohm precharge resistor. When the bus capacitor has charged to approximately 85% of the peak line , Capacitors When the input power is switched off, the "top" bus capacitor is discharged by a 10k resistor. The "lower" bus capacitor is discharged by a 10k resistor until its voltage reaches approximately 80V , becomes loaded by a 720 Ohm resistor. Maximum rise and fall times of the PWM input signals should be 150
International Rectifier
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PWM based DC to AC 3 phase Inverter Circuits schematic diagram PWM inverter voltage source inverter overcurrent schematic diagram pwm variable frequency drive circuit diagram DC to AC 3 phase Inverter Circuits Relay K1 4052 IRPT4052 50/60H IRPT4052C IRPT4052A IRPT4052D

THAT1570

Abstract: Figure 3, which uses a dual-gang potentiometer as the variable element. In Figure 3, high gain occurs , -15V RFI PROTECTION R4 10k RB 2k5 Figure 3. 1570 Typical Application Circuit Using , simultaneously with a dual-gang potentiometer or a switched resistor network. This flexible approach enables the , operates from as little as ±5V up through ±18V supplies. Running on ±18V supplies, at unity gain, the , N/C* VEE Figure 1. THAT1570 Block Diagram QFN Pin 1 2 3 4 5 6 7 8 9 10 11 12 13
THAT
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QFN16 THAT5171 QFN-16

phantom power supply 48v

Abstract: THAT1570 circuit of Figure 3, which uses a dual-gang potentiometer as the variable element. In Figure 3, high , -15V RFI PROTECTION R4 10k RB 2k5 Figure 3. 1570 Typical Application Circuit Using , as ±5V up through ±18V supplies. Running on ±18V supplies, at unity gain, the part accepts >+28dBu , supports varying all three resistors simultaneously with a dual-gang potentiometer or a switched resistor , Rg2 N/C VEE Figure 1. THAT1570 Block Diagram QFN Pin 1 2 3 4 5 6 7 8 9 10 11 12 13
THAT
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phantom power supply 48v 48v phantom supply phantom power supply 48v THAT 1512 that1510 DN140 113-D 1570N16-U

NL4504-2

Abstract: sumitomo crm epoxy ground though a 1 M - ohm resistor. 3 ) Ground all test equipment. 4 ) Ground all soldering iron tips , built-in 50-ohm termination resistors connected between signal input pins and a Vtt pin, external , - 9 - IMPLEMENTATION EXAMPLE (1) (SCFL Level operation ì Variable resistor 10KÌ2 Min. 1/lOOW OL LU. 48 o-wvâ'"VWVW\A Variable resistor lOKO Min. 1/100W LU- LU ML VlH = 0.0 V VIL = - 0.9 V , resistor 10K Q Min. 1/100W ZZZ 1000 PF 9 o-Wvâ'"WvWAA- ML 7, 15, 33, 40, 47 Package boundary 45 Vref
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OCR Scan
NL4615-2 NL4504-2 sumitomo crm epoxy sumitomo crm 1061 e022c NL4615-12 NL4615-13 E022C NL4615-15 NL4615-16
Abstract: circuit of Figure 3, which uses a dual-gang potentiometer as the variable element. In Figure 3, high , R2 1k0 100n -15V RFI PROTECTION R4 10k RB 2k5 Figure 3. 1570 Typical Application , as ±5V up through ±18V supplies. Running on ±18V supplies, at unity gain, the part accepts , switched resistor network. This flexible approach enables the designer to optimize noise over a wider , N/C VEE VCC N/C Rg2 N/C VEE Figure 1. THAT1570 Block Diagram QFN Pin 1 2 3 4 5 6 7 THAT
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THAT1570

Abstract: "Microphone Preamplifier" 1.5V circuit of Figure 3, which uses a dual-gang potentiometer as the variable element. In Figure 3, high , -15V RFI PROTECTION R4 10k RB 2k5 Figure 3. 1570 Typical Application Circuit Using , , the -3 dB RA 2k5 R3 10k THAT 1570 IN+ +15V C9 100n R1 1k0 RGF 8.66 CG 3300u , as ±5V up through ±18V supplies. Running on ±18V supplies, at unity gain, the part accepts >+28dBu , supports varying all three resistors simultaneously with a dual-gang potentiometer or a switched resistor
THAT
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JEDEC 1N4148 Variable resistor 10K ohm pot THAT1246 4 GANG variable capacitor realistic 150

RELAY RHL2 12V

Abstract: RHL2 12V the ISLIC. Shunting pins JP3 2 & 3 selects the variable 3.3V supply to SLIC_VCC. Shunting pins JP3 1 , device pass through this connector. 3 Zarlink Semiconductor Inc. Le71HE0861/862 4 Zarlink , 2.0k ohm resistor to allow for a 2.0 k RTSTL value. The J3 jumper for R1 is factory-set to have the , Le79610 packet codec device and 790 series SLIC devices. These components are through hole to help , Optional variable VCC supply for the Le79610 packet codec device. 3 AUX-VCC VCC supply for +2.5 V
Zarlink Semiconductor
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RELAY RHL2 12V RHL2 12V RHL2 RELAY rhl2 - 12v HP6237B relay rhl 2-5v 71HE0861/L 71HE0862 79R231/241 79R251 71HE0795 71HE0861/862

schematic inductive proximity sensor

Abstract: driver ULN2803 Solenoid Valve +24vdc + From Auxiliary I/O Pins 0-15 3.3K 100 Ohm ULN2803 Darlington , pins X0-X15. Thus these two commands will be heavily used through out a Digital Design Solutions, Inc , H11A817DQT 4.7K To Main I/O Pins 0-15 Place Jumper Here to Complete the LED Circuit. 1.0K 4.7K , To Main I/O Pins 0-15 1.0K Use No Jumper, as the Opto Circuit is Complete. 4.7K +5vdc , Return = = = = = 0 1 3 7 15 `switch to output pins `conveyor off, sort current box next
Digital Design Solutions
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schematic inductive proximity sensor driver ULN2803 pick and place robot automotive relay driver circuit using darlington schematic AC inductive proximity sensor BSIO32

RSN 310 R37

Abstract: RHL2 12V the ISLIC. Shunting pins JP3 2 & 3 selects the variable 3.3V supply to SLIC_VCC. Shunting pins JP3 1 , , and interface signals needed to operate the 790 series SLIC device pass through this connector. 3 , . Either TL3 or TY1 will short one 2.0k ohm resistor to allow for a 2.0 k RTSTL value. The J3 jumper for , components are through hole to help facilitate easy changing, if required, by the user. The function of the , off-board variable +3.3 V input from the PW1 connector to AVDD and CREF JP2 pins 2-3 Selects the
Zarlink Semiconductor
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RSN 310 R37 64PIN euro connectors HDR3X2 dual row RHL2 HP3488A RELAY PCB DPDT 12V

smd TRANSISTOR 2F6

Abstract: sot223 transistor p38 -pin package. The PECL signals are connected to the SPECTRA-4X155 receive and transmit pins through 50 ohm , CSU_AVDH pin is passed through an RC filter to provide a clean voltage to the pin. The RES and RESK pins , lines are terminated with 10 ohm stub resistors that should be placed close to the J1_1 connector pins , . 2 3 APPLICATIONS . 3 4 REFERENCES
PMC-Sierra
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smd TRANSISTOR 2F6 sot223 transistor p38 transistor smd ad p28 yb4 bridge diode TRANSISTOR SMD K27 w31 smd transistor PM5316/PM5310 PMC-1991245

0805 smd led

Abstract: CY8CKIT-030 10.Follow the same steps (1 through 9) to program the second PSoC 3 (on a CY8CKIT-001 DVK with a , resistor on the CAN_EN net. See the TJA1050 device datasheet for details on each of these three pins of the , (middle two pins) JP2 - CAN Termination Resistor. Default Position: Installed 24 CY8CKIT-017 CAN , .10 3. Kit Operation 3.1 3.2 3.3 3.4 3.5 11 Introduction .11 Programming PSoC 3 Device
Cypress Semiconductor
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0805 smd led CY8CKIT-030 an5270 DB9 Female D-SUB CONNECTOR CAN LIN lin bus pinout DB9 CY8CKIT-009 06035A470KAT2A C0603C104K5RACTU C0603C102J5GACTU 06035C221JAT2A LTST-C170KRKT LTST-C170KYKT

Automotive HSD harness Connector

Abstract: ,0402 0 ohm_open 0 ohm 0 ohm 0 Ohm,0402 1.0K SW DIP-3 DS90UB901Q LM1117IMP-ADJ/SOT223_open , output pins (ROUT) are accessed through a J7 IDC connector. Please follow these steps to set up the , pin. The Address Decoder employs a 10 kâ"¦ pull up resistor to +1.8V and a variable potentiometer , Address Decoder employs a 10 kâ"¦ pull up resistor to VDD 1.8V and a variable potentiometer (VR3) pull , /HDC-0201 Header/2P Header/3P Header/2X10P 2x19 0.1" 3-terminal thru hole power jack CON/BANANA-S
Texas Instruments
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Automotive HSD harness Connector SNLU100 SERDESUB-16USB DS90UB901Q/902Q DS9UB901Q DS9UB902Q

SMD 0505 RESISTOR 10K OHMS

Abstract: code 619 sot-23 PRODUCTS VISHAY THIN FILM Sur face Mount Networks Surface Mount Chips Through Hole Networks RC , MOUNT CHIPS THROUGH HOLE NETWORKS THROUGH HOLE Vishay Thin Film Products RC NETWORKS RC , . 67 THROUGH HOLE NETWORKS Through Hole Selection Chart , . 90 Through Hole Selection Chart , MODEL (3 or 4 digits) RESISTANCE (4 or 8 digits) MPD (Two resistor Tin Lead) The first 3
Vishay BCcomponents
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SMD 0505 RESISTOR 10K OHMS code 619 sot-23 ORNTA 1002 20 PIN LEADLESS CHIP CARRIER THICK FILM M55342/09 SMD MARKING CODE 071 A01 VSE-DB0024-0706

sio lpc chip intel p4 motherboard

Abstract: rdi-dmt-1206 .2-28 Intel® 810 Chipset Design Guide iii 2.12 2.13 2.14 2.15 2.16 2.17 3 Clocking , Reference Resistor (Rset) 2.16.2 RAMDAC Board , Pullup and Pulldown Resistor Values .5-10 RTC , (Topology 3) .2-14 Display Cache , .2-19 Resistor Schematic for Primary IDE Resistor
Intel
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sio lpc chip intel p4 motherboard rdi-dmt-1206 980020 NAND RJMG-5312-11-01 Amphenol RJMG intel 810 MOTHERBOARD pcb CIRCUIT AP-670

eee mini projects

Abstract: command words lcd display 16x2 .1.2.13 R11 - Adjustable Regulator Variable Resistor .176 A.1.3 Prototyping , .179 A.1.3.7 R20 - Multipurpose Variable Variable Resistor A.1.3.9 SW1 , , multipurpose LEDs, mechanical push buttons, and a multipurpose variable resistor. In addition, three , Default Position: Installed J14 - Radio Power. Default Position: Installed J11 - Variable Resistor
Cypress Semiconductor
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eee mini projects command words lcd display 16x2 schematic omron vs mini j7 mini projects topics tms kit push button using psoc to activate a counter J6 SMD

Epson DX4

Abstract: CDR74B-100MC Contents 1 Introduction 1.1 1.2 1.3 1.4 1.5 2 Getting Started 2.1 2.2 2.3 2.4 3 , . D-1 D.1 D.2 D.3 D.4 D.5 D.6 D.7 D.8 D.9 D.10 D.11 Introduction , . D-16 1-1 3-1 3-2 3-3 4-1 4-2 4-3 4-4 D-1 D-2 D-3 EVAL80960VH Platform Functional , 0015 with Eval Board Installed . D-3 EVAL80960VH/Backplane 0015 Installation . D-3 Figures iv EVAL80960VH
Intel
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Epson DX4 CDR74B-100MC b49g MEMORY EEPROM 24C08 IC 24c08 bcr resistors beckman
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