500 MILLION PARTS FROM 12000 MANUFACTURERS

DATASHEET SEARCH ENGINE

Direct from the Manufacturer

Part Manufacturer Description PDF & SAMPLES
HS2-3530ARH-8 Intersil Corporation OP-AMP, MBCY8, METAL CAN-8
HS2-3530ARH-Q Intersil Corporation OP-AMP, MBCY8, METAL CAN-8
HA2-5002/883 Intersil Corporation BUFFER AMPLIFIER, MBCY8, METAL CAN-8
5962-8963601GC Intersil Corporation BUFFER AMPLIFIER, MBCY8, METAL CAN-8
HA2-5033-5 Intersil Corporation BUFFER AMPLIFIER, MBCY12, METAL CAN-12
HA2-5033-2 Intersil Corporation BUFFER AMPLIFIER, MBCY12, METAL CAN-12

"automatic gain controller" "limiting amplifier" "log detector" receiver

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: shift keying) AGC (see Automatic gain control) ALC (see Automatic level control) ALE (see Automatic , :.3.37 Frequency response:.3.3, 3.29 Gain , :.10.5 Receiver , :.21.61 Front-to-back, front-to-side ratio:.21.4 Gain , :.19.14 . Authority having jurisdiction (AHJ):.28.2 Automatic gain control (AGC):. -
Original
pin diagram for IC cd 1619 fm receiver ml 1136 triac Transistor 337 DIODE 2216 yagi-uda Antenna bistable multivibrator using ic 555
Abstract: control (AGC) circuitry on the transceiver. The AGC adjusts the gain of the receiver path such that the , preamble to lock the gain of the receiver (see Figure 6). The preamble is one or two OFDM symbols , . To detect the minimum desired signal, the receiver gain is set to maximum. The in-channel received , P Symbol 1 C P Symbol 2 detected, the receiver gain is reduced depending on the type of , and correlate to the signal, the receiver gain must be fixed. A fast AGC lock time allows the modem Analog Devices
Original
AD8368 radar detector ad8302 100MHz AD935x DVB-T Schematic set top box AD9912 create uhf vhf tv matching transformer AD9951 CDMA2000 AD9953 AD9913 G07603-
Abstract: Gain Control Solution New Product Line: Clocks & Timing! Two New Clock Generators Offer , . (Continued on page 10) HMC993LP5E â'¢ Gain Control Range: -11 to +32 dB â'¢ Output IP3 , HMC1016 â'¢ 34 to 46.5 GHz â'¢ Psat Output Power: +26 dBm â'¢ High Gain: 22 dB See , 4 ● HMC1019LP4E 5-Bit Digital, Serial Control 0.1 to 30 4 RF Automatic Gain , — ● ● ● HMC1040LP3CE ● Off-The-Shelf Attenuators Automatic Gain Control Hittite Microwave
Original
HMC1032LP6GE HMC1034LP6GE NL-0212
Abstract: Portable battery-operated instruments · Digital gain and offset adjustments · Programmable voltage and , : Variable Gain AD8337 General-Purpose, Low Cost, DC-Coupled VGA Key Features Product Link · Low , ) VPOS · Wide bandwidth (-3 dB) = 280 MHz AD8337 · Nominal gain range: 0 dB to 24 dB (preamp gain = 6 dB) · Gain scaling: 19.7 dB/V · DC-coupled PREAMP (PrA) · Single-ended input and , 2.5 V supplies GAIN CONTROL INTERFACE GAIN 7 INPP 3 18dB 1 VOUT EIGHT SECTIONS + Analog Devices
Original
AD9246 AD5621 ADF4350 AD9954 ADL5350 ADL5320 dds military Wideband Synthesizer ADuM1250
Abstract: of the network connects to the receiver summing node (RSN). Connection point for the DC feed current , positive for reverse polarity. RFA - Resistive feed adjust. Adjust the DC feed resistance gain , 500 times the current into this pin. The networks that program receive gain, two-wire impedance, and , no connection to these pins. Output Transmit Audio. This output is a 0.5066 unity gain version , weighted noise RL = 600 ­83 ­78 dBmp 8 Insertion Loss (See Test Circuits A and B) Gain Legerity
Original
Abstract: feed current programming network. The other end of the network connects to the receiver summing node , Resistive feed adjust. Adjust the DC feed resistance gain coefficient, GDC, with external resistor , program receive gain, two-wire impedance, and feed current all connect to this node. Reserved. These , Transmit Audio. This output is a 0.5066 unity gain version of the A(TIP) and B(RING) metallic voltage. VTX , weighted noise RL = 600 ­83 ­78 dBmp 8 Insertion Loss (See Test Circuits A and B) Gain Legerity
Original
DA79 loop detector
Abstract: network connects to the receiver summing node (RSN). Connection point for the DC feed current programming , for reverse polarity. Resistive feed adjust. Adjust the DC feed resistance gain coefficient, GDC, with , equal to 500 times the current into this pin. The networks that program receive gain, two-wire impedance , . This output is a 0.5066 unity gain version of the A(TIP) and B(RING) metallic voltage. VTX also sources , Idle Channel Noise C-message weighted noise Psophometric weighted noise Gain, 4- to 2-wire Gain, 2- to Legerity
Original
Abstract: feed current programming network. The other end of the network connects to the receiver summing node , Resistive feed adjust. Adjust the DC feed resistance gain coefficient, GDC, with external resistor , program receive gain, two-wire impedance, and feed current all connect to this node. RSVD Reserved , 0.5066 unity gain version of the A(TIP) and B(RING) metallic voltage. VTX also sources the two-wire , ­78 dBmp 8 Insertion Loss (See Test Circuits A and B) Gain, 4- to 2-wire Gain, 2- to 4 Advanced Micro Devices
Original
schematic induction heating schematic diagram induction heating audio automatic gain control tip 35 RFI filter schematic diagram POLARITY SWITCH CVBAT12
Abstract: network connects to the receiver summing node (RSN). Connection point for the DC feed current programming , resistance gain coefficient, GDC, with external resistor connected to ground. Ring Relay Driver , program receive gain, two-wire impedance, and feed current all connect to this node. Reserved. These , supply. VTX Output Transmit Audio. This output is a 0.5066 unity gain version of the A(TIP) and , weighted noise RL = 600 ­83 ­78 dBmp 8 Insertion Loss (See Test Circuits A and B) Gain Legerity
Original
JESD22 Le79489 ve58
Abstract: of the network connects to the receiver summing node (RSN). Connection point for the DC feed current , positive for reverse polarity. RFA - Resistive feed adjust. Adjust the DC feed resistance gain , 500 times the current into this pin. The networks that program receive gain, two-wire impedance, and , - TESTOUT Output Transmit Audio. This output is a 0.5066 unity gain version of the A(TIP , ­78 dBmp 8 Insertion Loss (See Test Circuits A and B) Gain, 4- to 2-wire Gain, 2- to 4 Advanced Micro Devices
Original
relay snubber
Abstract: supply required I Current Gain = 500 I Three on-chip relay drivers and relay snubbers, one ringing and , other end of the network connects to the receiver summing node (RSN). Ring Relay Driver. Open-collector , program receive gain, two-wire impedance, and feed resistance all connect to this node. Relay/Switch , guarantee performance of the SLIC. Transmit Audio. This output is a 0.50 gain version of the A(TIP) and B , Insertion Loss and Balance Return Signal (See Test Circuits A and B) Gain accuracy 4- to 2-wire Gain Legerity
Original
Abstract: ring-trip detect threshold s Low standby power (35 mW) s Current Gain = 500 s ­16 V to ­58 V , network connects to the receiver summing node (RSN). RINGOUT Output RSN Input Receive , current into this pin. The networks which program receive gain, two-wire impedance, and feed resistance , . This output is a 0.50 gain version of the A(TIP) and B(RING) metallic voltage. VTX also sources the , 4 Insertion Loss and Balance Return Signal (See Test Circuits A and B) Gain accuracy 4- to 2 Legerity
Original
tip 416 transistor PQT044 RSN 31 OR 37 A
Abstract: supply required Current Gain = 500 Three on-chip relay drivers and relay snubbers, one ringing and two , network. The other end of the network connects to the receiver summing node (RSN). RINGOUT Output , ) is equal to 500 times the current into this pin. The networks which program receive gain, two-wire , Transmit Audio. This output is a 0.50 gain version of the A(TIP) and B(RING) metallic voltage. VTX also , Loss and Balance Return Signal (See Test Circuits A and B) Gain accuracy 4- to 2-wire 0 dBm, 1 kHz Legerity
Original
DOWNLOAD DATA ABOUT RELAY SWITCH REV.A3 RELAY OUTPUT
Abstract: distributing the total RF gain over time. This is in contrast to a superheterodyne receiver, which achieves , Firmware A Drawings ASH Receiver Block Diagram & Timing Cycle ASH Transceiver Block Diagram Antenna , (916.5 or 868.35 MHz) · Excellent receiver off-channel interference rejection · Wide dynamic range receiver log detection for resistance to on-channel interference · Reference antennas · , target environment and used to help gain a sense of operating range for the proposed system. See the RF Monolithics
Original
DR1200A-DK DR1201A-DK LT1034-ND PB1001-2 Motorolla transistor replacement book Motorolla S PF 962 INTERFACING LED WITH AT89C2051 MCMASTER SCREW 6-32 RS232 TR1000/TR1001 CMOS/RS232 MMBT2907AL
Abstract: Downconverter / Receiver (page 18) RF Frequency (GHz) Function IF Frequency (GHz) Conversion Gain , . . Automatic Gain Control. . . . . . . . . . . . . . . . . . . DC Power , Transceivers. . . . . . . . . . . . . . . . . . . . . . . . . . . . Variable Gain , Automatic Gain Control DC Power Conditioning Filters - Tunable IF / Baseband Processing I/Q Mixers/IRMs , Passives Phase Shifters Power Detectors SDLVAs Switches Transceivers Variable Gain Amplifiers Analog Hittite microwave
Original
OC-48 SG-0514
Abstract: . . . . . . . . . . Automatic Gain Control. . . . . . . . . . . . . . . . , . . . . . . . . . . Variable Gain Amplifiers. . . . . . . . . . . . . . . , Amplifiers Attenuators Automatic Gain Control DC Power Conditioning Filters - Tunable IF / Baseband , /Demodulators Passives Phase Shifters Power Detectors SDLVAs Switches Transceivers Variable Gain , 2014 New Products Amplifiers New Products Gain Blocks & Drivers (page 12) Frequency (GHz Hittite Microwave
Original
HMC631LP3 SG-0914 G12723-2-9/14
Abstract: / Receiver IF Frequency (GHz) DC - 3.5 Conversion Gain (dB) 14 Image Rejection (dB) 32 , NEW PRODUCTS AMPLIFIERS - Differential Gain Block & Connectorized Low Phase Noise Amp & PA Modules , Differential Gain Block 50 / 75 Ohm Differential Gain Block Power Amplifier, 2 Watt Power Amplifier, 1/2 Watt Power Amplifier, 1 Watt 0.01 - 6.0 0.01 - 6.0 Gain (dB) 16 16 31 22 23 OIP3 (dBm , Frequency (GHz) 1.5 - 5.0 7 - 11 Gain / NF (dB) 14 / 4.5 9/6 Function Low Phase Noise Low Hittite Microwave
Original
Abstract: Downconverter / Receiver (page 18) RF Frequency (GHz) Function IF Frequency (GHz) Conversion Gain , Gain Control. . . . . . . . . . . . . . . . . . . DC Power Conditioning. . . . , . . . . . . . . . . . . . . . . . . . . . . . . . . Variable Gain , lines. RF & Microwave ICs Amplifiers Attenuators Automatic Gain Control DC Power Conditioning , Switches Transceivers Variable Gain Amplifiers Analog & Mixed-Signal ICs Broadband Time Delays Hittite Microwave
Original
SG-1213
Abstract: used in a wide range of RF transmitter and receiver electronics. These applications include: Cellular , . Wideband variable gain am plifier. Wideband variable gain am plifier , . NE/SA577 Unity gain level programmable power compandor . NE/SA578 Unity gain level programmable low power compandor -
OCR Scan
hef4750 application NE571 equivalent transistor BU 608 uhf modulator SSB ASK, PR ASK
Abstract: Common-Mode Rejection Differential Line Receiver . New , Monolithics Inc. DEFINITIONS Class A VCA - The standing (quiescent) current in the gain core transistors , in distortion. CLIPPING AVERAGE SIGNAL LEVEL Class AB VCA - The gain core standing current , A measurement, in dBm, of noise at the output of a device with amplifier gain subtracted. The , SSM-2013 is ideal when logarithmic control of gain is needed. The output current gain or attenuation Precision Monolithics
Original
free transistor equivalent book 2sc SMD TRANSISTOR MARKING 9B NPN SSM2131 cross reference SSM-2014 SSM-2018 SSM-2024 SSM-2120 SSM-2122
Showing first 20 results.