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LT5537EDDB#TR Linear Technology LT5537 - Wide Dynamic Range RF/IF Log Detector; Package: DFN; Pins: 8; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
LT5537EDDB#TRM Linear Technology LT5537 - Wide Dynamic Range RF/IF Log Detector; Package: DFN; Pins: 8; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
LT5537EDDB#TRMPBF Linear Technology LT5537 - Wide Dynamic Range RF/IF Log Detector; Package: DFN; Pins: 8; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
LT5537EDDB Linear Technology LT5537 - Wide Dynamic Range RF/IF Log Detector; Package: DFN; Pins: 8; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
LT5537EDDB#TRPBF Linear Technology LT5537 - Wide Dynamic Range RF/IF Log Detector; Package: DFN; Pins: 8; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
LT5537EDDB#PBF Linear Technology LT5537 - Wide Dynamic Range RF/IF Log Detector; Package: DFN; Pins: 8; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy

Intermediate frequency transformer

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Intermediate frequency transformer

Abstract: triode push-pull circuit will depend on the constants of the intermediate frequency transformer. C3, shown in dotted lines, is , omitted. The choice of intermediate frequency is governed by the signal frequency. Serious pulling , useful in many industrial applications. AUDIO FREQUENCY AMPLIFICATION The valve may be used either in push-pull or cascade in resistance or transformer coupled amplifiers. An anode load resistor of 33ki2 to , satisfactory. RADIO FREQUENCY AMPLIFICATION The B309 may be used with either earthed cathode or earthed grid
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Mitsumi IF transformer

Abstract: Intermediate frequency transformer Equivalent Circuit Block Diagram Unit (resistance : , capacitance : F) IFT (Intermediate Frequency Transformer) 1. Using double tuning coil 2. Using ceramic filter Specified Test Circuit Diagram Test , Antenna input voltage ­ dB/m Modulation frequency ­ Hz Selectivity Characteristic Current Drain , Sensitivity ­ dB/m Interference ­ dB Frequency, f ­ kHz Whistle Characteristics Detection output , . Sensitivity ­ dB/m Pin 6 voltage ­ V Detection output ­ dBm Response ­ dB Frequency
SANYO Electric
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mitsumi HW-50425

Abstract: mitsumi ift coil dBm mV dBm mV dB dB % % 1.2 1.5 IFT(intermediate frequency transformer) 1.Using Double , Modulation Frequency (Hz) Detection output 1kHz,30% mod 100dB/m 20 40 Sensitivity 1kHz,30% mod , Response 0 Tracking adjust at each frequency IF interference 80 Image frequency interference 60 , characteristics Fig.6 MW Fidelity characteristics -8 120 0 Frequency (kHz) 0 -4 90 0 , 0.1M 1M 10M 100M Frequency (Hz) 7 Silan Microelectronics
Silan Microelectronics
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C536 transistor

Abstract: C536 ILA01876 No.2056-2/9 LA1600 IFT (Intermediate Frequency Transformer) 1. Using double tuning coil , Modulation frequency - Hz ILA01881 Current Drain, Pin 6 Voltage Characteristics f=1MHz 1kHz-30 , -40 -60 -80 -100 7 1M 2 3 5 7 Frequency, f - Hz 10M 2 3 , 0 0 40 ILA01884 Receiving frequency, fr - kHz ICC no input 20 Detection output , frequency. IF interference 20 600 120 100 Sensitivity - dBm Detection output, Whistle
SANYO Electric
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C536 transistor C536 transistor C536 transistor D545 b598 transistor Intermediate frequency transformer EN2056C

Mitsumi IF transformer

Abstract: Intermediate frequency transformer Diagram o vcc 0015p m 22^ 1FT (Intermediate Frequency Transformer) 1 . Using double tuning , 1 kh 2 0 120 b Antenna Input Voltage - dB/m Current Dissipation, Modulation Frequency , 40 90 Antenna Input Voltage - dB/m Whistle Characteristics p 3 i 90r Frequency, A f - kHz , - dB 0utput-30dBm I I | I ipul (Referenced to AN*r i : c. UDl1-0 o n n z ; frequency -20 f , Frequency,f, - MHz N o .2 0 5 6 -5 /7 LAI 600 Unit (resistance: 0 , capacitance: F ) Coil
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Mitsumi IF transformer TOKYO fi transformer 455KHZ mitsumi 455KHz filter Intermediate frequency transformer 455khZ Mitsumi PVC-lyt LA4510 2056B 3017B HU-50426 HU-50425

mitsumi HW-50425

Abstract: mitsumi 455KHz filter Diagram o vcc 0015p m 22^ 1FT (Intermediate Frequency Transformer) 1 . Using double tuning , 1 kh 2 0 120 b Antenna Input Voltage - dB/m Current Dissipation, Modulation Frequency , 40 90 Antenna Input Voltage - dB/m Whistle Characteristics p 3 i 90r Frequency, A f - kHz , - dB 0utput-30dBm I I | I ipul (Referenced to AN*r i : c. UDl1-0 o n n z ; frequency -20 f , Frequency,f, - MHz N o .2 0 5 6 -5 /7 LAI 600 Unit (resistance: 0 , capacitance: F ) Coil
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mitsumi HW-50425 HW-50426 Mitsumi IF 455Khz mitsumi bar antenna coil 318T 0077K

b598 transistor

Abstract: Mitsumi IF transformer 510 5 22µF ILA01876 0.015µF IF Det 9 No.2056-2/9 LA1600 IFT (Intermediate Frequency Transformer) 1. Using double tuning coil VCC 7 0.047µF 7 2. Using ceramic filter VCC 4 , input voltage - dBm Modulation frequency - Hz 10 0 -10 ILA01882 Current Drain, Pin 6 , 50 Antenna input voltage - dBm 0 ILA01883 90 Frequency, f - kHz Interference - dB , each frequency. IF interference Detection output, Whistle output - dBm Detection ou -20 80
SANYO Electric
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TN10896 transistor c536 sanyo HW-50397 MITSUmI IF COIL HW-50422 mitsumi coil am

HA11123

Abstract: in60p diode be obtained to drive the detection circuit. The intermediate frequency transformer is connected to , Type IF Differential Amplifier The intermediate frequency (IF) signal whose frequency has been changed , intermediate frequency signal frequency fi slips from the tuning frequency fo of the detection coil L2, is the , the collector, emitter and base. Third Stage Direct Coupled IF Amplifier The intermediate frequency , 1.34 1.60 1.86 V AM Max. Sensitivity SUM Antenna transformer level where the recovered AF voltage is
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HA11123 HIA11123 IN60P MV4FLC-20000AG in60p diode transistor c114 est HA-11123 TOKO fi transformer IS2076 144LZ-180K CFU-089

SFR450H

Abstract: Murata sfr450h turn ratio of IFT (intermediate frequency transformer) is not limited. T h e inform ation in this , uffi), MIX2 block (M IX2, OSC2. Buff2), IF (intermediate frequency) amplifier, detector, AGCfautomatic , input 20 IF AGC T.C. IF AGC input 8 Equivalent Circuit GND (low frequency) b427525 , frequency) *29 B uffllN 1st IF buffer input V« Z* = 15kQ *20% 30 MIX1BYP MIX1 bypass , Ã"15 * N E C E Detuning Frequency Characteristics (Maxim um Sensitivity), Signal Selection
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SFR450H Murata sfr450h NEC car radio 4.5-Mhz 427S25 PC2533 PC1322 PC2533GS-01

q406 transistor

Abstract: transistor equivalent q406 IFT (intermediate frequency transformer) turn ratio is free from limitation for matching of ceramic , possible by external resistor. · Can be used with IF (intermediate frequency) counter turning system or , the µPC2533 raises the first IF (intermediate frequency) to 10.71 MHz, there is no need for a tuning , VO(AF) Audio output VCC ZO = 300 ±20 % 15 20 16 GND Ground GND (low frequency , GND Ground 29 Buff1IN Equivalent Circuit GND (high frequency) 1st IF buffer input
Renesas Electronics
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q406 transistor transistor equivalent q406 q406 transistor data equivalent q406 q406 KV1310

transistor equivalent q406

Abstract: q406 transistor IFT (intermediate frequency transformer) turn ratio is free from limitation for matching of ceramic , possible by external resistor. · Can be used with IF (intermediate frequency) counter turning system or , the µPC2533 raises the first IF (intermediate frequency) to 10.71 MHz, there is no need for a tuning , VO(AF) Audio output VCC ZO = 300 ±20 % 15 20 16 GND Ground GND (low frequency , GND Ground 29 Buff1IN Equivalent Circuit GND (high frequency) 1st IF buffer input
NEC
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transistor q406 2SK1000 transistor q403 KV1310 equivalent transistor sd 965 Q407 PC2533GS-02
Abstract: IF (intermediate frequency) counter turning system or high/low tuning system. SD S e nsitivity , ithout regard to SD sensitivity. â'¢ Lo/DX function on-chip â'¢ Since IFT (intermediate frequency transformer) turn ratio is free from limitation for matching of ceramic filter impedance, it is , (intermediate frequency) to 10.71 MHz, there is no need for a tuning circuit between the RF amplifier circuit , oothing 15 Vo(AF) A udio output 16 GND Ground GND (low frequency) 17 Vcc Pow -
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NXP dirana 3

Abstract: dirana amplitude-control loop for reliable start-up behavior · Reference clock frequency derived from IF DSP (no , signals for IF AGC, FM keyed AGC, AF updating and reference frequency to IF DSP for optimum system , mixer converts AM RF (ranging from 144 kHz to 26.1 MHz) to an IF frequency of 10.7 MHz. Typical values , 108 MHz) to an IF frequency of 10.7 MHz. The mixer provides high image rejection, large dynamic range , VCO frequency divided by a programmable divider ratio to the reference frequency. This reference
NXP Semiconductors
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AN10422 TEF6730HW NXP dirana 3 dirana SAF773x NXP SAF7730 NXP dirana 2 SAF773 SAF778

NXP dirana 3

Abstract: NXP dirana 2 reliable start-up behavior · Reference clock frequency derived from IF DSP (no front-end crystal , AGC, FM keyed AGC, AF updating and reference frequency to IF DSP for optimum system performance · , mixer converts AM RF (ranging from 144 kHz to 26.1 MHz) to an IF frequency of 10.7 MHz. Typical values , 108 MHz) to an IF frequency of 10.7 MHz. The mixer provides high image rejection, large dynamic range , VCO frequency divided by a programmable divider ratio to the reference frequency. This reference
NXP Semiconductors
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dirana 3 dirana 2 SAF7730 Diode bav99 nxp NXP dirana NXP SAF773x

earth BUSBAR calculation

Abstract: BUSBAR calculation with an extension unit plus a number of intermediate current transformer units. 84TE 6U 101 109 1 118 , is a basic unit plus a number of intermediate current transformer units. 84TE Basic unit RK 638 002 , current for the largest line â'¢Compact version with summation transformer also available â'¢Line current , transformer â'¢Applicable with long distance between relay and current transformers Application REB 103 , . Internal faults are measured before saturation of the current transformer. Stability for external faults is
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earth BUSBAR calculation BUSBAR calculation diode unit RLOE 100 relay busbar protection ABB ELECTRICAL CALCULATION FOR TRANSFORMER ABB power transformer 1MDB05006 1MDB13004-EN 1MDB12006-EN

BUSBAR calculation

Abstract: CURRENT transformers application differential relay is built with three separate phases and one intermediate current transformer per line and , current at point K lL Total outgoing at point L TMA Intermediate current transformer (nMA=lA2/|A3) TMD nd , plus a number of intermediate current transformer units. 84 TE REB103 Basic unit max. 12 linjer RK638 , REB 101 with summation transformer is a basic unit plus a number of intermediate current transformer , rated current for the largest line â'¢ Compact version with summation transformer also available â
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CURRENT transformers application calculation of transformer differential relay setting RK 646 dc switchgears single line diagram relay rd3 differential relay 1MDB05006-EN 004-BEN 001-BEN

5 pin Intermediate frequency transformer

Abstract: Intermediate frequency transformer 455 DATASHEET Intermediate Frequency Digital Variable Gain Amplifier IDTF1200 GENERAL DESCRIPTION The IDTF1200 is a Digitally Controlled Intermediate Frequency Differential Variable Gain Amplifier for , PART# MATRIX VCC VMODE ISET y STBY DATASHEET Intermediate Frequency Digital Variable Gain , 16 op 18 20 rie 22 tar 20 y DATASHEET Intermediate Frequency Digital Variable , April, 2011 DATASHEET Intermediate Frequency Digital Variable Gain Amplifier IDTF1200 TYPICAL
Integrated Device Technology
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GRM155R71C103KA01D F1200ZD 5 pin Intermediate frequency transformer Intermediate frequency transformer 455 IDTF1200NBGI8 HEADER14P F1206 F1200 SM-22 1/10W 10000PF 1000PF ERJ-2RKF2871X

5 pin Intermediate frequency transformer

Abstract: DATASHEET Intermediate Frequency Digital Variable Gain Amplifier GENERAL DESCRIPTION IDTF1200 FEATURES The IDTF1200 is a Digitally Controlled Intermediate Frequency Differential , DATASHEET Intermediate Frequency Digital Variable Gain Amplifier IDTF1200 ABSOLUTE MAXIMUM RATINGS , Intermediate Frequency Digital Variable Gain Amplifier IDTF1200 IDTF1200 SPECIFICATION VCC = +5.0V, fRF , V April, 2011 DATASHEET Intermediate Frequency Digital Variable Gain Amplifier IDTF1200
Integrated Device Technology
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RC0402FR-0747KL ERJ-2GE0R00X 1008CS-681XJLC GRM1555C1H102JA01D GRM155R61A104KA01D 961102-6404-AR

B81121 X2 mkt

Abstract: B81121 X2 mkp ; 12V/4A; -12V/1A; Standby: 5V/100mA Operating Frequency: 100kHz Contents: 1.Circuit description , layout. 7. Transformer design , power factor correction, intermediate circuit voltage stabilization and to supply the primary and , active state the chip first checks whether the intermediate circuit voltage at pin 19 lies between 20 , case, the chip concludes that monitoring for the intermediate circuit voltage is connected (FMEA) and
Infineon Technologies
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AN-TDA16888-0-010323 B81121 X2 mkt B81121 X2 mkp ELKO capacitors MKT .22K 250V X2 EPCOS 230 00 O PL-03-821 RUS-125 S-164

TOP250

Abstract: TOP248-TOP250 procedure to compute transformer turns, output inductance and other design parameters. This procedure , TOPSwitch-GX C U1 S TL431 with Frequency Compensation FEEDBACK CIRCUIT F PI , of magnetic amplifiers nor linear regulators. It determines design parameters for the transformer , TOPSwitch-GX. Detail is focused on the primary side of the transformer because the circuits on the secondary , , VR1, VR2 and VR3 in Figure 10) which resets the transformer flux and limits the maximum drain
Power Integrations
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AN-30 TOP250 TOP248-TOP250 transformer for top250 magnetic amplifier saturable core TOP248Y SATURABLE CORE 261/A
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