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LTC6362IDD#TRPBF-ES Linear Technology LTC6362 - Precision, Low Power Rail-to-Rail Input/Output Differential Op Amp/SAR ADC Driver; Package: DFN; Pins: 8; Temperature: I
LTC5541IUH#TRPBF Linear Technology LTC5541 - 1.3GHz to 2.3GHz High Dynamic Range Downconverting Mixer; Package: QFN; Pins: 20; Temperature Range: -40°C to 85°C
LTC5508ESC6#TRM Linear Technology LTC5508 - 300MHz to 7GHz RF Power Detector with Buffered Output in SC70 Package; Package: SC70; Pins: 6; Temperature Range: -40°C to 85°C
LTC5543IUH#PBF Linear Technology LTC5543 - 2.3GHz to 4GHz High Dynamic Range Downconverting Mixer; Package: QFN; Pins: 20; Temperature Range: -40°C to 85°C
LT5511EFE Linear Technology LT5511 - High Signal Level Upconverting Mixer; Package: TSSOP; Pins: 16; Temperature Range: -40°C to 85°C
LT5517EUF Linear Technology LT5517 - 40MHz to 900MHz Quadrature Demodulator; Package: QFN; Pins: 16; Temperature Range: -40°C to 85°C

455KHz IF Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
rf amplifier 10mhz

Abstract:
Text: otherwise stated. IF frequency = 455kHz ; IF level = -47dBm; FM modulation = 1kHz with ±8kHz peak deviation , IF freq. = 455kHz IF level - -44dBm RSSI output rise time (10kHz pulse, no IF filter) IF level = -16dBm IF freq. = 10.7MHz IF level = -44dBm IF level = -16dBm IF freq. = 455kHz IF level = -44dBm RSSI , characteristic). H ie sub-systems are shown in Figure 4. A typical application with 45MHz input and 455kHz IF is , instability at IF frequencies above 455kHz . The basic phenomenon is shown in Figure 8. Distributed feedback


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PDF SA624 SA624 SA604A, 25MHz) 16-lead SR004S1 rf amplifier 10mhz 455KHz IF ba624
Not Available

Abstract:
Text: = 455kHz ; IF level = -47dBm; FM modulation = 1kHz with ±8kHz peak deviation. Audio output with , 1.9 2.65 3.1 V 5.5 4.0 4.85 5.6 V IF freq. = 455kHz IF levei = -44dBm , 1.1 1.1 ps IF freq. = 455kHz IF level = -44dBm 1.3 1.3 ps RSSI output fall time , sub-systems are shown in Figure 4. A typical application with 45MHz input and 455kHz IF is shown in Figure 5 , the limiters, there is a very real potential tor instability at IF frequencies above 455kHz . The


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PDF NE/SA624 NE/SA624 NE/SA604A, 25MHz) NE/SA604. 16-lead 16-lead
Signal mixing NE602

Abstract:
Text: TA = 25°C; VCC = +6V, unless otherwise stated. IF frequency = 455kHz ; IF level = -47dBm; FM , 4.85 5.5 4.0 4.85 5.6 V IF freq. = 455kHz IF level = -44dBm 1.1 1.1 µs , 100k (Pin 5) IF freq. = 455kHz +1.5 dB IF input impedance 1.4 +1.5 1.6 1.4 1.6 , input and 455kHz IF is shown in Figure 5. 42k V+ 15 16 7k 1.6k 1 IF Amplifiers 40k , is a very real potential for instability at IF frequencies above 455kHz . The basic phenomenon is


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PDF NE/SA624 NE/SA624 NE/SA604A, 25MHz) NE/SA604. 16-lead 16-lead Signal mixing NE602 NE602 application note ne604 BLOCK DIAGRAM NE602 TOKO 455KHz filter wide NE624D metal detector plans IF FILTER 455KHZ filter 455khz NE602 equivalent
Not Available

Abstract:
Text: CHARACTERISTICS Typical reading at T a = 25°C; V cc - ±6V, unless otherwise stated. IF frequency = 455kHz ; IF , RF level = -118dBm RSSI output1 RF level - -68dBm RF level = -18dBm IF freq. = 455kHz IF level , level = -16dBm IF freq. = 10.7MHz IF level = -44dBm IF level = -16dBm IF freq. = 455kHz IF level = , typical application with 45MHz input and 455kHz IF is shown in Figure 3. IF Amplifiers The IF , potential for instability at IF frequencies above 455kHz . The basic phenomenon is shown in Figure 6


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PDF NE/SA624 NE/SA624 NE/SA604A, NE/SA604. 16-lead
A2549

Abstract:
Text: otherwise stated. IF frequency = 455kHz ; IF level = -68dBm, FM modulation = 1 kHz with ±8kHz peak deviation , Ceramic C12 6 8nF± 20% 25V Tantalum F1 455kHz Ceramic Filter Murata SFG455A3 F2 455kHz IF Filter A2549 R1 , Figure 2. A typical application with 45MHz input and 455kHz IF is shown In Figure 3. IF AMPLIFIERS The IF , for instability at IF frequencies above 455kHz . The basic phenomenon is shown in Figure 6. Distributed , importance of good supply bypass. At 455kHz , if the layout of Figure 1 or one substantially similar is used


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PDF 22jiV 455kHz 25MHz 711DB2b 7110fl2b A2549 operation limiter circuit en basic fm demodulation ku 602 vc 604A GDIP1-T16 N1500 SFG455A3 SFG 455A3 philips SQ 10 mixing amplifier
1997 - mitsumi 455khz

Abstract:
Text: filter at C, R and increase ripple rejection efficiency. Detection pin Input 455kHz IF signal to two Tr , AN7002S Equivalent Circuit IF By-pass 455kHz IF Signal IF by-pass capacitor connection pin , 13 455kHz IF Signal MIX output pin Connect ceramic filter 3k M Di ain sc te on na tin nc ue e/ d 17 19 IF By-pass 455kHz IF Signal IF by-pass capacitor connection pin 18 20 18 20 IF Input 455kHz IF , consumption : 17mA (at no signal) · Built-in tuning indicator circuit · Adjustment-free IF 6.35±0.3 3 ~ 15


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PDF AN7002K, AN7002S AN7002K AN7002S AN7002K mitsumi 455khz
1997 - CFM455

Abstract:
Text: at C, R and increase ripple rejection efficiency. Detection Detection pin Input 455kHz IF , IF Input 19 21 Typ. Waveform DC 0V 455kHz IF Signal 24 RF Input Equivalent Circuit GND pin IF by-pass capacitor connection pin 455kHz IF Signal IF by-pass capacitor connection pin 455kHz IF Signal 17 19 2.7k 16 18 12 13 IF input pin Differential amp. base , 22 NC 455kHz IF Signal MIX output pin Connect ceramic filter NC Pin 3k 21 23


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PDF AN7002K, AN7002S CFM455 mitsumi 455KHz filter AN700 AN7002K matsushita 455KHz ceramic filter matsua 455KHz ceramic filter CFM455BL AN7002S an7002 AM/Tuners
Ceramic filter 455khz

Abstract:
Text: Typical reading at TA ■= 25°C; Vcc = ±6V, unless otherwise stated. IF frequency = 455kHz ; IF level = , rise time (10kHz pulse, no IF filter) IF freq. = 455kHz IF level = -44dBm IF level- -16dBm , 1.2 1.2 HS 1.1 1.1 (IS RSSI output fall time (10kHzpulse.no IF filter) IF freq. = 455kHz , sub-systems are shown in Figure 2. A typical application with 45MHz input and 455kHz IF is shown in Figure 3 , a very real potential for instability at IF frequencies above 455kHz . The basic phenomenon is shown


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PDF NE/SA624 NE/SA624 NE/SA604A, 25MHz) NE/SA604. 16-lead Ceramic filter 455khz NE602 equivalent circuit filter 455khz KE624 murata SFG455A3 455KHz ceramic filter TOKO 455KHz ceramic filter NE624D TOKO CERAMIC FILTER 455 NE605 ceramic discriminator NE602 equivalent
NE614AN

Abstract:
Text: TA - 25°C; Vcc - +6V unless otherwise stated. IF frequency - 455kHz ; IF level - -47dBm; FM modulation , acteristic). The sub-systems are shown in Figure 2. A typical application with 45MHz input and 455kHz IF is , frequencies above 455kHz . The basic phenomenon is shown in Figure 6. Distributed feed- IF Amplifiers The , evaluated on its own merit, but don't underestimate the importance of good supply bypass. At 455kHz , if the , . Krauss, Raab, Bastian; Solid State R a d » Eng.; W iley,1980, p.311. Example: At 455kHz IF , with ±5kHz FM


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PDF NE/SA614A 25MHz) NE/SA604. 16-lead NE614A NE/SA614A NE614AN limiter circuit operation en basic fm demodulation operation limiter circuit en basic fm demodulation
1997 - SA604

Abstract:
Text: = +6V, unless otherwise stated. IF frequency = 455kHz ; IF level = -47dBm; FM modulation = 1kHz , 3.1 V RF level = -18dBm RSSI output1 4.0 4.85 5.6 V IF freq. = 455kHz IF , 455kHz +1.5 dB IF input impedance 1.4 1.6 k IF output impedance 0.85 1.0 k , 455kHz (Ce = 180pF) TOKO RMC 2A6597H 51 +1% 1/4W Metal Film IF SIGNETICS NE624 TEST CKT 100nF , input and 455kHz IF is shown in Figure 5. 42k V+ 15 16 1.6k 1 IF Amplifiers 40k The IF


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PDF SA624 SA624 SA604A, 25MHz) SA604 SFG455 TOKO 455KHz filter wide Signal mixing NE602 NE602 equivalent ne602 SA602A IF FILTER 455KHZ filter 455khz 2a6597
Signal mixing NE602

Abstract:
Text: °C; Vcc · ±6V, unless otherwise stated. IF frequency = 455kHz ; IF level = -47dBm; FM modulation « = 1kHz , RSSI output' RF level » -68dBm RF level = -18dBm IF freq. = 455kHz IF level = -44dBm 1.1 1.2 , 10.7MHz IF level w -44dBm IF level = -16dBm IF freq. = 455kHz IF level c -44dBm 1.2 1.1 1.2 1.1 , 455KHz IF is shown in Figure 3. IF Amplifiers The IF amplifier section consists of two loglimiting , importance of good supply bypass. At 455kHz , if the layout of Figure 1 or one substantially similar is used


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PDF NE/SA624 NE/SA604A, 25MHz) NE/SA604. 16-lead NE/SA624 Signal mixing NE602 variable inductor 455KHz
Not Available

Abstract:
Text: 455kHz ; IF level = -47dB m ; FM modulation = 1kHz with ±8kHz peak d e la tio n . Audio output with C , Murata SFG455A3 455kHz IF Filter 51il±1% 1/4W Metal Film 15000 *1%1/4W Metal Film 1500ft ±5% 1/8W Carbon , application with 45MHz input and 455kHz IF is shown in Figure 3. IF Amplifiers The IF amplifier section , for instability at IF frequencies above 455kHz . The basic phenomenon is shown in Figure 6 . , importance of good supply bypass. A t 455kHz , if the layout of Figure 1 or one substantially similar is used


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PDF 25MHz NE/SA604A /SA604A NE604A NE/SA604A
1997 - TOKO 455KHz filter wide

Abstract:
Text: = 455kHz ; IF level = -47dBm; FM modulation = 1kHz with +8kHz peak deviation. Audio output with , VCC R2 IF SIGNETICS NE614 TEST CKT GND OFF 6.8µF +20% 25V Tantalum 455kHz Ceramic , shown in Figure 4. A typical application with 45MHz input and 455kHz IF is shown in Figure 5. 42k V , frequencies. Even at 455kHz , using the test layout in Figure 3, instability will occur if the supply line is , includes first-order effects only. At 455kHz , if the layout of Figure 3 or one substantially similar is


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PDF SA614A SA614A 25MHz) SA604. 16-lead TOKO 455KHz filter wide Toko variable coil TOKO 455KHz ceramic filter "Ceramic Filter" 455khz metal detector plans SA604 band pass filter 10GHz TOKO 455KHz crystal filter SIGNETICS* sa602 TOKO 455KHz filter
NE604AN

Abstract:
Text: °C; VCC = ±6V, unless otherwise stated. IF frequency = 455kHz ; IF level = -47dBm; FM modulation = 1kHz , 45MHz input and 455kHz IF is shown in Figure 5. Because of the very high gain, bandwidth and input impedance of the limiters, there is a very real potential for instability at IF frequencies above 455kHz , frequencies. Even at 455kHz , using the test layout in Figure 3, instability will occur if the supply line is , output voltage. At 455kHz , if the layout of Figure 3 or one substantially similar is used, it is


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PDF NE/SA604A NE/SA604A 25MHz) NE/SA604. 16-lead NE604A SR00322 NE604AN Signal mixing NE602 NE604 SA604A equivalent NE602 equivalent SA604A NE602 NE604AD NE602 equivalent circuit NE605 ceramic discriminator
K2000-YSP

Abstract:
Text: 455kHz ; IF level = -47dBm; FM modulation = 1 kHz with ± 8 kHz peak deviation. Audio output with C-message , Ceramic 8.8} iF ±20% 25V Tantalum 455kHz Ceramic Rlter Murala SFG455A3 455kHz (Ce x 1S0pF) TOKO RMC 2A6597H , . A typical application with 45MHz input and 455kHz IF is shown in Figure 3. IF Amplifiers The IF , limiters, there is a very real potential for instability at IF frequencies above 455kHz . The basic , , especially at lower frequencies. Even at 455kHz , using the test layout in Figure 1, instability will occur if


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PDF NE/SA614A NE/SA614A 25MHz) NE/SA604. 16-lead NE614A K2000-YSP
DOO 100R

Abstract:
Text: otherwise stated. IF frequency = 455kHz ; IF level = -68dBm, FM modulation = 1 kHz with ±8kHz peak deviation , 455kHz Ceramic Filter Murata SFG455A3 F2 455kHz IF Filler A2549 51Í1 ± 1% V4W Metal Film 1500S! ± 1 % , sub-systems are shown 'in Figure 2. A typical application with 45MHz input and 455kHz IF is shown In Figure 3 , a very real potential for instability at IF frequencies above 455kHz . The basic phenomenon is shown , good supply bypass. At 455kHz , if the layout of Figure 1 or one substantially similar is used, it is


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PDF 22jiV 455kHz 711062b 006S21R 28i5lI9M1ted 7110fl2b DOO 100R application notes own Audio Dynamic Noise Reduction A2549 K2000-Y5P 455KHz IF 1980 Audio Handbook Murata SFG 604A variable inductor 455KHz Ceramic filter 455khz
SA604A

Abstract:
Text: » 455kHz ; IF level = -47dBm; FM modulation = 1kHz with +8kHz peak deviation. Audio output with , performance low power FM IF system SA604A Figure 5. Typical Application Cellular Radio (45MHz to 455kHz , application with 45MHz input and 455kHz IF is shown in Figure 5. output of the first iimiter is a iow , importance of good supply bypass. At 455kHz , if the layout of Figure 3 or one substantially similar is used , parallel and series resonances dose, and to get maximum attenuation of higher harmonics at 455kHz IF , we


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PDF SA604A SA604A 25MHz) SA604, 16-lead SA604A equivalent sa604 SA604 application
614A

Abstract:
Text: stated. IF frequency = 455kHz ; IF level = -47dBm; FM m odulation = 1kHz with +8kHz peak deviation. Audio , Ceram ic 6.8| iF +20% 25V Tantalum 455kHz C eram ic Filter M urata SFG455A3 455kHz (Ce = 180pF) TOKO RMC , . A typical application with 45M Hz input and 455kHz IF is shown in Figure 5. small signal AC , importance of good supply bypass. At 455kHz , if the layout of Figure 3 or one substantially sim ilar is used , attenuation of higher harm onics at 455kHz IF , we have found that a Cs = 10pF and Cp = 164pF (com m ercial


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PDF SA614A SA614A SA604. 16-lead OT109-1 076E07S S-012AC 614A sot28-4 SR00333
Not Available

Abstract:
Text: 25°C; VCC = +6V, unless otherwise stated. IF frequency = 455kHz ; IF level = -47dBm; FM modulation , characteristic). The sub-systems are shown in Figure 4. A typical application with 45MHz input and 455kHz IF is , . Even at 455kHz , using the test layout in Figure 3, instability will occur if the supply line is not , first-order effects only. At 455kHz , if the layout of Figure 3 or one substantially similar is used, it is , resonances close, and to get maximum attenuation of higher harmonics at 455kHz IF , we have found that a CS =


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PDF NE/SA614A NE/SA614A 25MHz) NE/SA604. 16-lead NE614A SR00334
NE604AN

Abstract:
Text: , unless otherwise stated. IF frequency = 455kHz ; IF level = -47dBm; FM modulation = 1kHz with ±8kHz , sub-systems are shown in Figure 2. A typical application with 45MHz input and 455kHz IF is shown in Figure 3 , potential for instability at IF frequencies above 455kHz . The basic phenomenon is shown in Figure 6 , frequencies. Even at 455kHz , using the test layout in Figure 1, instability will occur if the supply line is , NE604A At 455kHz , if the layout of Figure 1 or one substantially similar is used, it is possible to


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PDF NE/SA604A NE/SA604A 25MHz) NE/SA604. 16-lead NE604A NE604AN NE602 SA604AN SA604A SA604A equivalent ne604 TOKO 455KHz filter rf ne602 SA604
SA604A equivalent

Abstract:
Text: reading at Ta = 25°C ; V qc = ±6V, unless otherwise stated. IF frequency = 455kHz ; IF level = -47dBm; FM , 100V N1500 Ceram ic 1nF +10% 100V K2000-Y5P Ceram ic 6.8| iF +20% 25V Tantalum 455kHz C eram ic Filter M , typical application with 45M Hz input and 455kHz IF is shown in Figure 5. output of the first lim iter , potential for instability at IF frequencies above 455kHz . The basic phenom enon is shown in Figure 8 , . Even at 455kHz , using the test layout in Figure 3, instability will occur if the supply line is not


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PDF SA604A SA604A SA604. 16-lead OT109-1 076E07S S-012AC SA604A equivalent
SA604A equivalent

Abstract:
Text: CHARACTERISTICS Typical reading a tT * = 25°C; Vcc = ±6V, unless otherwise stated. IF frequency = 455kHz ; IF , characteristic). The sub-systems are shown in Figure 2. A typical application with 45MHz input and 455kHz IF is , , especially at lower frequencies. Even at 455kHz , using the test layout in Figure 1, instability will occur if , merit, but don't underestimate the importance of good supply bypass. At 455kHz , if the layout of Figure , . Krauss, Raab, Bastian; Solid State Radio Eng.; Wiley, 1980, p. 311. Example: At 455kHz IF , with ¿5kHz FM


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PDF NE/SA604A 25MHz) NE/SA604. 16-lead NE/SA604A NE604A SA604A equivalent NE604AN NE604 NE604 Philips
murata 455khz filter

Abstract:
Text: otherwise stated. IF frequency = 455kHz ; IF level = -47dBm; FM modulation = 1 kHz with ±8kHz peak deviation , sub-systems are shown in Figure 2. A typical application with 45MHz input and 455kHz IF is shown in Figure 3 , a very real potential for instability at IF frequencies above 455kHz . The basic phenomenon is shown , frequencies. Even at 455kHz , using the test layout in Figure 1, instability will occur if the supply line is , underestimate the importance of good supply bypass. At 455kHz , if the layout of Figure 1 or one substantially


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PDF NE/SA604A 7110fl2b 0Dfl4533 NE/SA604A 853-0406C 00A454S murata 455khz filter NE604AN ne602 NE604 filter 455khz SA604AD capacitors 22p NPO ceramic TOKO AM 10.7MHz crystal filter SA604 SA604A equivalent
NE604AD

Abstract:
Text: CHARACTERISTICS Typical reading at TA = 25°C; Vcc = + 6 V unless otherwise stated. IF frequency = 455kHz ; IF , sub-systems are shown in Figure 2. A typical application with 45MHz input and 455kHz IF is shown in Figure 3 , , there is a very real potential for instability at IF frequencies above 455kHz . The basic phenomenon is , frequencies. Even at 455kHz , using the test layout in Figure 1, instability will occur if the supply line is , underesti mate the importance of good supply bypass. At 455kHz , if the layout of Figure 1 or one


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PDF NE/SA604A NE604A SA604A NE/SA604A 25MHz) NE/SA604. 16-lead NE604AD NE604AN ne604 455khz NE605 equivalent SA604AN
J 3305-2

Abstract:
Text: otherwise stated. IF frequency = 455kHz ; IF level = -47dBm; FM modulation = 1 kHz with ±8kHz peak deviation , .1(lF rani M M M DATA OUT 455kHz Q«20 -1 L4-4 0.1(lF I C-MSG FILTER 1 AUDIO OUT RSSI NE604A IF INPUT , characteristic). The sub-systems are shown in Figure 2. A typical application with 45MHz input and 455kHz IF is , impedance of the limiters, there is a very real potential for instability at IF frequencies above 455kHz , on its own merit, but don't underestimate the importance of good supply bypass. At 455kHz , if the


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PDF NE/SA604A 711002b 14S33 853-0406C J 3305-2 NE604AN NE602 application NE604 Philips NE604AD Murata SF 455 D SA604A SA604A equivalent SA604AN Signetics NE602
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