500 MILLION PARTS FROM 12000 MANUFACTURERS

DATASHEET SEARCH ENGINE

Top Results

Part Manufacturer Description Datasheet BUY
PMP5660.1 Texas Instruments Multi-Transformer 2x25V (390V@192mA) visit Texas Instruments
PMP5660.2 Texas Instruments Multi-Transformer 2x25V (50V@700mA) visit Texas Instruments
PMP5660 Texas Instruments Multi-Transformer 2x25V?50V@700mA, 390V@192mA visit Texas Instruments
PMP5412 Texas Instruments Transformer-less, non-isolated AC to DC visit Texas Instruments
ISO3086TDW Texas Instruments Isolated 485 Transceiver with integrated transformer driver 16-SOIC -40 to 85 visit Texas Instruments Buy
ISO1176TDW Texas Instruments Isolated ProfiBus Transceiver with integrated transformer driver 16-SOIC -40 to 85 visit Texas Instruments Buy

TRANSFORMER RF 4.5-MHz IF

Catalog Datasheet MFG & Type PDF Document Tags

RIF 206

Abstract: j453 connected to the primary side of the RF input transformer, which has low DC resistance to ground. If the RF , amplifiers, or is easily matched to drive 50 single-ended, with or without an external transformer. The RF , IF+ 100nH 1nF 220nH RF INPUT RF BIAS GND EN VCC2 VCC1 1nF IF ­ 4.7pF IF OUTPUT 240MHz 100nH , Input Frequency Range IF Output Frequency Range RF Input Return Loss LO Input Return Loss IF Output , 450MHz, IF = 140MHz, High Side LO RF = 900MHz, IF = 140MHz RF = 1700MHz RF = 1900MHz RF = 2200MHz RF =
Linear Technology
Original

TOKO 100KHz transformer

Abstract: LTC55 ­50 850 900 950 1000 RF FREQUENCY (MHz) 1050 TA = 25°C LO = 760MHz IF = 140MHz PRF = , the primary side of the RF input transformer, which has low DC resistance to ground. If the RF , FREQUENCY (MHz) L1, L2 (nH) C3 (pF) IF TRANSFORMER 1 1 to 100 Short - TC8-1 (8 , external transformer. The RF input is internally matched to 50 from 1.7GHz to 3GHz, and the LO input is , Gain, IIP3, SSB NF and LO-RF Leakage vs LO Power 24 100nH IF+ 1nF 220nH RF INPUT RF
Linear Technology
Original

RIF 206

Abstract: transformer 2GHz connected to the primary side of the RF input transformer, which has low DC resistance to ground. If the , (dBm) C6,C7 = 0 RIF · ROUT IF 1900 2300 2500 2100 RF INPUT FREQUENCY (MHz) ­60 , Conversion Gain, IIP3, SSB NF and LO-RF Leakage vs LO Power 24 100nH IF+ 1nF 220nH RF INPUT RF IF BIAS GND EN VCC2 VCC1 4.7pF ­30 IF = 240MHz LOW SIDE LO ­35 TA = 25°C ­40 , NC LO NC TOP VIEW 16 15 14 13 NC 1 12 GND NC 2 RF 3 LT5527EUF 11 IF+ 17
Linear Technology
Original
LT5527 RIF 206 transformer 2GHz LLQ1608-A82N gsm1800 demodulator 400MH 900MH 1900MH 600MH GSM900/GSM1800/GSM1900

j569

Abstract: 1090MHz balun 22pF 1.5pF 5.6pF LNA IF+ IF ­ LTC5540 RF 100pF BIAS SHDN VCC2 VCC 3.3V , 600 to 1100 MHz MHz 5 to 500 MHz RF Input Frequency Range Low-Side LO High-Side LO IF Output Frequency Range Requires External Matching RF Input Return Loss ZO = 50, 600MHz to , 0 6 dBm LO to RF Leakage fLO = 700MHz to 1200MHz , 1300MHz >55 dB RF to IF Isolation fRF = 600MHz to 1300MHz >37 dB 5540f LTC5540
Linear Technology
Original
j569 1090MHz balun 1090Mhz LNA circuit for a signal blocker 1090mhz filter TC4-1W-7ALN 700MH 915MH 1950MH 300MH 140MH 240MH

J569

Abstract: 504gc IIP3 (dBm) LTC5540 IF 28 15 14 CT RF 700MHz TO 915MHz 16 ADC GC (dB), NF , BPF 19 800 700 900 RF FREQUENCY (MHz) 18 1000 5540 TA01a 5540f 1 LTC5540 , MHz 5 to 500 Low-Side LO High-Side LO MHz IF Output Frequency Range Requires External , >47 dB dB RF to LO Isolation fRF = 600MHz to 1300MHz >55 dB RF to IF Isolation , Application: RF = 600MHz to 1100MHz, IF = 190MHz, fLO = fRF +fIF PARAMETER CONDITIONS Conversion Gain
Linear Technology
Original
504gc N40001 200MH LT5581 LTC2208 LTC2262-14 LTC2242-12 250MH
Abstract: 10 IF = 240MHz 1700MHz 1900MHz 2200MHz 2300 2500 2100 RF FREQUENCY (MHz) 5527 G03 , lowpass/4:1 transformer method. Table 4. IF Matching Element Values PLOT IF FREQUENCY (MHz) L1 , RF and LO inputs provide single-ended 50Ω interfaces. The differential IF output allows convenient , , with or without an external transformer. The RF input is internally matched to 50Ω from 1.7GHz to , IF+ 1nF 220nH RF INPUT RF EN VCC2 VCC1 100nH 5V 1nF â'"30 IF = 240MHz LOW Linear Technology
Original
LTC5508 LTC5509 LTC5530 LTC5531 LTC5532 LT5534

transformer center tap

Abstract: 0402HP FREQUENCY (MHz) Figure 9. IF Output Return Loss-Bandpass Matching with 8:1 Transformer 5569 F08 , in Figure 11. Table 5. Measured Performance Using IF Load Resistor (R3) and 4:1 Transformer (RF = , 4.0 LO 3.5 DUAL IF VGA DUAL ADC LO RF IFB+ BIAS IFB­ 270nH 270nH ENB , 210 220 230 240 IF OUTPUT FREQUENCY (MHz) 5560 TA01b 1nF 5569f 1 LTC5569 PIN , CONDITIONS MIN TYP MAX UNITS RF Input Frequency Range 300 to 4000 MHz LO Input
Linear Technology
Original
transformer center tap 0402HP LTC5569IUF N4000-13 TC8-1-10LN 4.5GHz Bandpass filter 350MH LTC2285 LTC2268-14

pin function of ic an 5522

Abstract: ltc5534 operation with no external components. Internal On-Chip RF Input Transformer 50 , ) VGA LNA 150nH RF­ EN VCC1 5522 F01 IF­ BIAS/ CONTROL LTC1748 ADC 16 , 13 12 GND NC 1 RF + 2 RF ­ 11 IF+ 17 3 10 IF ­ 6 7 8 EN VCC2 NC , Requires Appropriate IF Matching 400 RF Input Return Loss LO Input Return Loss ZO = 50 ZO = 50 IF Output Return Loss LO Input Power ZO = 50 RF to LO Isolation 50MHz to 2700MHz TYP
Linear Technology
Original
LT5522 pin function of ic an 5522 ltc5534 AN 5522 GRP1555C1H101J LT5522EUF J277 LT5512 LT5515 LT5516 LT5521 LT5525

G1038

Abstract: schematic diagram vga 15-pin Transformer (RF = 1950MHz, Low-Side LO, IF = 190MHz, VCC = 3.3V, TC = 25°C) CONVERSION GAIN (dB , 4.0 LO 3.5 DUAL IF VGA DUAL ADC LO RF IFB+ BIAS IFB­ 270nH 270nH ENB , 210 220 230 240 IF OUTPUT FREQUENCY (MHz) 5560 TA01b 1nF 5569fa 1 LTC5569 Pin , CONDITIONS MIN TYP MAX UNITS RF Input Frequency Range 300 to 4000 MHz LO Input Frequency Range 350 to 4500 MHz 5 to 1600 MHz IF Output Frequency Range External Matching
Linear Technology
Original
G1038 schematic diagram vga 15-pin LTC5569IUF#TRPBF

j178

Abstract: J914 Input IP3 at 1.9GHz On-Chip RF Output Transformer No External LO or RF Matching Required Single-Ended , double-balanced mixer core, allowing the use of a low power, single-ended LO source. An RF output transformer is , RF Output Power and Output IM3 vs IF Input Power (Two Input Tones) 1000pF 39nH 10 BPF IF INPUT 220pF VCC1 VCC2 VCC3 BIAS 100 0 ­10 10pF 4:1 IF + RF + IF ­ , ) 16 15 14 13 LT5520EUF 12 GND GND 1 IF + 2 11 RF + 17 IF ­ 3 10 RF ­ 9 GND 5
Linear Technology
Original
LT5520 j178 J914 04023A150KAT2A 04023C221KAT2A LL1005-FH39NJ LTC5507 1000MH LT5500 LT5502 LT5503
Abstract: Input IP3 at 1.9GHz On-Chip RF Output Transformer No External LO or RF Matching Required Single-Ended , double-balanced mixer core, allowing the use of a low power, single-ended LO source. An RF output transformer is , RF Output Power and Output IM3 vs IF Input Power (Two Input Tones) 1000pF 39nH 10 BPF IF INPUT 220pF VCC1 VCC2 VCC3 BIAS 100â"¦ 0 â'"10 10pF 4:1 IF + RF + IF , LOâ'" U W W W (Note 1) 16 15 14 13 LT5520EUF 12 GND GND 1 IF + 2 11 RF + Linear Technology
Original
120MH LT5506 500MH LT5546

IDTF1150

Abstract: 0805cs-271xjlb DATASHEET RF to IF Dual Downconverting Mixer 1700 - 2200 MHz F1150NBGI GENERAL DESCRIPTION , , July 2012 DATASHEET RF to IF Dual Downconverting Mixer 1700 - 2200 MHz F1150NBGI ABSOLUTE , Mixer 2 Rev2, July 2012 DATASHEET RF to IF Dual Downconverting Mixer 1700 - 2200 MHz , Rev2, July 2012 DATASHEET RF to IF Dual Downconverting Mixer 1700 - 2200 MHz F1150NBGI , & 200 MHz IF RF frequency = 1850 MHz for single point measurements Average of Channel A & Channel B
Integrated Device Technology
Original
IDTF1150 YA1206A 0805cs-271xjlb PCB yageo smd 1206 capacitor lot date code panasonic 0603 resistor 0/YA1206A F1150 SM-22 QFN-36 10000PF 1000PF

12-0-12 transformer

Abstract: 12-0-12 center tap transformer side of the RF input transformer, which has low DC resistance to ground. If the RF source is not DC , Frequency LO INPUT ­3dBm (TYP) 26 24 22 100nH IF+ 1nF 150nH RF INPUT RF IF ­ , ) 4.7pF GC (dB), NF (dB), IIP3 (dBm) LT5557 60 2100 2000 1900 RF FREQUENCY (MHz) 2200 , Return Loss TYP 1600 to 2300 Requires Appropriate IF Matching RF Input Return Loss MIN dB , , 3, 4) PARAMETER CONDITIONS Conversion Gain RF = 450MHz, IF = 70MHz, High Side LO RF =
Linear Technology
Original
12-0-12 transformer 12-0-12 center tap transformer pdf 12-0-12 transformer 12-0-12 transformer 1mA transistor j326 j326 LTC5533 LTC5536 LT5537
Abstract: F09 FREQUENCY (MHz) Figure 9. IF Output Return Lossâ'"Bandpass Matching with 8:1 Transformer , in Figure 11. Table 5. Measured Performance Using IF Load Resistor (R3) and 4:1 Transformer (RF = , 28 190 180 170 210 200 IF OUTPUT FREQUENCY (MHz) SSB NF (dB), IIP3 (dBm) BIAS RF , RF MAIN 270nH 1nF 270nH Mixer Conversion Gain, IIP3 and NF vs IF Output Frequency 3.3V 10nF 2.7pF IFA+ RFA IFAâ'" BIAS RF ENA 4.5 4.0 LO 3.5 DUAL IF Linear Technology
Original
Abstract: '" 22pF LTC5541 IF LO2 RF LNA 8.8 ADC SYNTH 2 ALTERNATE LO FOR FREQUENCY-HOPPING , 7.6 7.4 LO IIP3 (dBm), SSB NF (dB) IF+ RF 1920MHz TO 1980MHz IF AMP 1nF 150nH , 190MHz BPF 12 7.0 6.8 160 10 NF 190 200 170 180 210 IF OUTPUT FREQUENCY (MHz) 8 , IF Output Frequency Range Requires External Matching RF Input Return Loss ZO = 50Ω, 1300MHz , 2000MHz LO to RF Leakage fLO = 1400MHz to 2000MHz Linear Technology
Original
GSM1800 LT5575 LT5578 LT5579 LTC5598 LT5570

NF919

Abstract: Power AMP P1dB 35dBm degrade RF performance. 5541 F07 Figure 7. IF Amplifier Schematic with Bandpass Match transformer , excellent RF to IF and LO to IF isolation. VCCIF is supplied through the center tap of the 4:1 transformer , ADC IF ­ RF 1920MHz TO 1980MHz LTC5541 IF LO2 RF LNA SYNTH 2 ALTERNATE LO , 12 7.0 6.8 160 10 NF 190 200 170 180 210 IF OUTPUT FREQUENCY (MHz) 8 220 5541 , IF Output Frequency Range Requires External Matching RF Input Return Loss ZO = 50, 1300MHz
Linear Technology
Original
NF919 Power AMP P1dB 35dBm WBC4-6TLB TA-0116 0603CS LTC5541IUH

LTC5582

Abstract: G37 IC GV 40 90 140 190 240 290 340 390 440 490 540 590 IF FREQUENCY (MHz) 5567 F12 IIP3 RF = 1.69GHz TO , 340 420 RF/LO FREQUENCY (MHz) ­80 460 5567 TA03c RF , LO and IF Port Return Losses 10 5 0 ­5 ­10 ­15 ­20 ­25 ­30 ­35 ­40 50 100 150 200 250 300 350 400 450 5567 TA03d FREQUENCY (MHz) LO RF IF GC , 390nH 100 IF AMP RF IF­ IADJ 249 390nH 100 200 LOAD GV (dB), IIP3 (dBm), SSB NF (dB) LO 28 26 24 22 20 18 16 14 12 10 8 6 4 GV 40 90 140 190 240 290 340 390 440 490 540 590 IF FREQUENCY (MHz) 5567 TA01b
Linear Technology
Original
LTC5567 LTC5582 LTC5583 G37 IC DB 16-16 LTC5567IUF#PBF LTC5567IUF LTC554 LTC6400-X LTC6416 LTC6412 LT5554

ASL920

Abstract: EB-T24-H3 ASL920 RF OUT RF IN 1:1 1:1 Transformer Transformer GND 4/13 +Vsupply , ASL920 RF IN RF OUT 1:1 Transformer 1:1 Transformer GND 8/13 +Vsupply ASB Inc , Features ï'· 50 ~ 1200 MHz Bandwidth ï'· 19.8 dB Gain at 500 MHz ï'· CSO : 65 dBc, CTB : 66 dBc @ Pout , 75 ï'®ï'  Parameter Typical Unit Frequency 50 500 1002 12002) MHz Gain , Pout = 109 dBV flat for PAL 99 channels. 3) 1200 MHz data is measured with 50 ~ 1200 MHz
Advanced Semiconductor Business
Original
QAM256 TSSOP24 00REF

LT5557

Abstract: LT5557EUF side of the RF input transformer, which has low DC resistance to ground. If the RF source is not DC , Frequency LO INPUT ­3dBm (TYP) 26 24 LT5557 0 IIP3 100nH IF+ 1nF 150nH RF INPUT , 1900 RF FREQUENCY (MHz) LO LEAKAGE (dBm) 4.7pF GC (dB), NF (dB), IIP3 (dBm) 22 20 50 , Return Loss TYP 1600 to 2300 Requires Appropriate IF Matching RF Input Return Loss MIN dB , , 3, 4) PARAMETER CONDITIONS Conversion Gain RF = 450MHz, IF = 70MHz, High Side LO RF =
Linear Technology
Original
LT5557EUF j163

j147

Abstract: diode J336 ) IF RF LTC5544 1.2pF SYNTH LO LO 5010MHz RF 5150MHz TO 5350MHz fLO = 5010MHz 7.9 PLO = 2dBm , 255 265 IF OUTPUT FREQUENCY (MHz) 5544 TA01b 5544f 1 LTC5544 Absolute Maximum Ratings , PARAMETER LO Input Frequency Range RF Input Frequency Range IF Output Frequency Range RF Input Return Loss LO Input Return Loss IF Output Impedance LO Input Power LO to RF Leakage LO to IF Leakage RF to LO Isolation RF to IF Isolation Low Side LO High Side LO CONDITIONS VCC = 3.3V, VCCIF = 3.3V, SHDN = Low
Linear Technology
Original
j147 diode J336 GC1525 5250MHz 5250MH LTC5542 LTC5543 LTC559 LTC5588-1 LTC5587
Showing first 20 results.