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LTC6362CDD#PBF-ES Linear Technology LTC6362 - Precision, Low Power Rail-to-Rail Input/Output Differential Op Amp/SAR ADC Driver; Package: DFN; Pins: 8; Temperature: C visit Linear Technology - Now Part of Analog Devices
LTC5544IUF#PBF Linear Technology LTC5544 - 4GHz to 6GHz High Dynamic Range Downconverting Mixer; Package: QFN; Pins: 16; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
LTC6362CDD#TRPBF-ES Linear Technology LTC6362 - Precision, Low Power Rail-to-Rail Input/Output Differential Op Amp/SAR ADC Driver; Package: DFN; Pins: 8; Temperature: C visit Linear Technology - Now Part of Analog Devices
LT5558EUF#TRBPF Linear Technology IC TELECOM, CELLULAR, RF AND BASEBAND CIRCUIT, PQCC16, 4 X 4 MM, LEAD FREE, PLASTIC, MO-220WGGC, QFN-16, Cellular Telephone Circuit visit Linear Technology - Now Part of Analog Devices
LTC5540IUH#PBF Linear Technology LTC5540 - 600MHz to 1.3GHz High Dynamic Range Downconverting Mixer; Package: QFN; Pins: 20; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
DC1398A-GA Linear Technology BOARD EVAL LTM9001-GA visit Linear Technology - Now Part of Analog Devices

455KHz IF

Catalog Datasheet MFG & Type PDF Document Tags

TOKO CERAMIC FILTER a55

Abstract: ripple rejection efficiency. Detection Detection pin Input 455kHz IF signal to two Tr in reverse , 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 2.7kâ"¦ 16 18 12 13 IF input pin Differential amp , Output 20 22 NC 455kHz IF Signal MIX output pin Connect ceramic filter NC Pin 3kâ
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rf amplifier 10mhz

Abstract: ba624 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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Abstract: = 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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CFM455

Abstract: AN700 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
Panasonic
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Abstract: 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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mitsumi 455khz

Abstract: 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
Panasonic
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mitsumi 455khz AN7002K SDIP022-P-0300A

Ceramic filter 455khz

Abstract: NE602 equivalent circuit Typical reading at TA â = 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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Ceramic filter 455khz NE602 equivalent circuit filter 455khz NE624D TOKO 455KHz ceramic filter TOKO CERAMIC FILTER 455 NE/SA624 NE/SA604A NE/SA604 NE624 RFINP-44 RFINP-26

Signal mixing NE602

Abstract: NE602 application note 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
Philips Semiconductors
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Signal mixing NE602 NE602 application note ne604 BLOCK DIAGRAM NE602 TOKO 455KHz filter wide NE602 equivalent SR00440 SR00452 SR00453 SR00455

A2549

Abstract: operation limiter circuit en basic fm demodulation 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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GDIP1-T16 operation limiter circuit en basic fm demodulation 604A ku 602 vc SFG 455A3 N1500 711DB2

SA604

Abstract: SFG455 = +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
Philips Semiconductors
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SA604 SFG455 IF FILTER 455KHZ ne602 2a6597 SA602A SA624 SA604A

variable inductor 455KHz

Abstract: Signal mixing NE602 °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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variable inductor 455KHz 5A624
Abstract: 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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E/SA604 NE604A

NE614AN

Abstract: operation limiter circuit en basic fm demodulation 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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NE614AN limiter circuit operation en basic fm demodulation NE/SA614A SA614A NE614A

DOO 100R

Abstract: application notes own Audio Dynamic Noise Reduction 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 51Ã1 ± 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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DOO 100R application notes own Audio Dynamic Noise Reduction K2000-Y5P Murata SFG 1980 Audio Handbook 455KHz IF 006S21R

K2000-YSP

Abstract: 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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K2000-YSP

NE604AN

Abstract: Signal mixing NE602 °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
Philips Semiconductors
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NE604AN SA604A equivalent NE604AD NE605 ceramic discriminator SA604AN NE605 equivalent SR00311 SR00322

TOKO 455KHz filter wide

Abstract: Toko variable coil = 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
Philips Semiconductors
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Toko variable coil band pass filter 10GHz metal detector plans SIGNETICS* sa602 TOKO 455KHz crystal filter SR00323
Abstract: 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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SR00334

NE604AN

Abstract: NE602 , 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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rf ne602 SA604AD 0.1uF 100nF ceramic TOKO 10.7Mhz CERAMIC FILTER NE604 Philips TOKO 455KHz filter

SA604A

Abstract: SA604A equivalent » 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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SA604 application
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