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Part Manufacturer Description Datasheet BUY
LTC1518IS#PBF Linear Technology LTC1518 - High Speed, Precision Delay RS485 Quad Line Receivers; Package: SO; Pins: 16; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
LTC1518CS Linear Technology LTC1518 - High Speed, Precision Delay RS485 Quad Line Receivers; Package: SO; Pins: 16; Temperature Range: 0°C to 70°C visit Linear Technology - Now Part of Analog Devices Buy
LTC1519CS#TRPBF Linear Technology LTC1519 - High Speed, Precision Delay RS485 Quad Line Receivers; Package: SO; Pins: 16; Temperature Range: 0°C to 70°C visit Linear Technology - Now Part of Analog Devices Buy
LTC1519IS Linear Technology LTC1519 - High Speed, Precision Delay RS485 Quad Line Receivers; Package: SO; Pins: 16; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy
LTC1519CS#PBF Linear Technology LTC1519 - High Speed, Precision Delay RS485 Quad Line Receivers; Package: SO; Pins: 16; Temperature Range: 0°C to 70°C visit Linear Technology - Now Part of Analog Devices Buy
LTC1518IS#TR Linear Technology LTC1518 - High Speed, Precision Delay RS485 Quad Line Receivers; Package: SO; Pins: 16; Temperature Range: -40°C to 85°C visit Linear Technology - Now Part of Analog Devices Buy

Delay Lines murata

Catalog Datasheet MFG & Type PDF Document Tags

GRM31 Murata

Abstract: P05E ://search.murata.co.jp/ 07 K26E.pdf 05.10.14 Coils · Delay Lines MURATA PRODUCT Selection Guides Today , . The delay line is a relative newcomer. However, Murata chip coils and delay lines do work well at , 05.10.14 Selection Guide of Chip Coils Coils · Delay Lines MURATA PRODUCT Selection Guides , Coils · Delay Lines MURATA PRODUCT Selection Guides Murata's LQp series of chip coils consists of , Resistors · Thermistors 05 Coils · Delay Lines 08 Noise Suppression Products · EMI Suppression
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SMD resistors 1806

Abstract: inductor 100 micro henry ://search.murata.co.jp/ 07 Coils · Delay Lines K26E5.pdf 05.03.16 MURATA PRODUCT Selection Guides Today , delay line is a relative newcomer. However, Murata chip coils and delay lines do work well at high , Delay Lines Product Guide / Inductance Range K26E5.pdf 05.03.16 MURATA PRODUCT Selection Guides , Thermistors 05 Coils · Delay Lines 08 Noise Suppression Products · EMI Suppression Filters 11 , developed for these components. Catalog No. O05E Chip Coils Chip Multilayer Delay Lines Antenna Coils
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SMD resistors 1806 inductor 100 micro henry ultrasonic sensor RX TX Ultrasonic Piezoelectric murata Chokes* COMMON MODE SUPPRESSION 250V Ultrasonic bubble GRM15/18/21/31 GRM32/43/55 GRM03 K26E-5
Abstract: communication equipment. The cost savings realized when compared to other technologies, make the Murata Multilayer Devices a wise choice for your component dollars. Chip delay lines offer a considerable size reduction over conventional wire wound delay lines. Their ability to be picked and placed by auto insertion equipment reduces costly hand assembly Chip delay lines from Murata are a good alternative for , , Chip - 374 Delay Lines, Chip -
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CG01-J

Directional Couplers murata

Abstract: murata ldc savings realized when compared to other technologies, make the Murata Monolithic Devices a wise choice for your component dollars. Chip delay lines offer a considerable size reduction over conventional wire wound delay lines. Their ability to be picked and placed by auto insertion equipm ent reduces costly hand assembly. Chip delay lines from Murata are a good alternative for the cost conscious designer , . 47 Delay Lines LD Series
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Directional Couplers murata murata ldc MURATA LFE LDC MURATA

Chip Multilayer Delay Lines murata

Abstract: Diplexer communication equipment. The cost savings realized when compared to other technologies, make the Murata Monolithic Devices a wise choice for your component dollars. Chip delay lines offer a considerable size reduction over conventional wire wound delay lines. Their ability to be picked and placed by auto insertion equipment reduces costly hand assembly. Chip delay lines from Murata are a good alternative for the cost , .77 - 78 Delay Lines, Chip Monolithic
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Chip Multilayer Delay Lines murata Diplexer
Abstract: savings realized when compared to other technologies, make the Murata Monolithic Devices a wise choice for your component dollars. Chip delay lines offer a considerable size reduction over conventional wire wound delay lines. Their ability to be picked and placed by auto insertion equipment reduces costly hand assembly. Chip delay lines from Murata are a good alternative for the cost conscious designer. V , 54 Delay Line - Chip Monolithic. 55 -
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MSA1AA001

Abstract: Coils/Delay Lines Antenna Coils for Receiving 2.8±0.1 +0.05 0.65-0 0.7 4.2±0.1 3.1±0.1 8 10.9 Coils/Delay Lines 3 11±0.3 0.8 0.8 5.5±0.15 (in mm) Part Number Applications Size Inductance (mH) Resistance (ohm) MSA1AA001 Antenna coil for , from the website of Murata Manufacturing co., ltd. Therefore, it's specifications are subject to change , transact the approval sheet for product specifications before ordering. 06.12.25 muRata
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Chip Multilayer Delay Lines

Abstract: each code are described herein. If you have any questions about details, inquire at your usual Murata sales office or distributor. o Part Numbering Chip Multilayer Delay Lines LD H q (Global , ID Code LD wFunction Delay Time Tolerance ±0.05ns ±0.1ns C Chip Multilayer Devices A B Product ID ±0.2ns Code Function K ±10% H Delay Lines L ±15% , , alphabets, express the specifications or characteristics or others. muRata
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Chip Multilayer Delay Lines

Delay Lines murata

Abstract: LDH311N50LAC-810 sheet for product specification, before your ordering. N91E6.pdf 01.10.29 Chip Multilayer Delay Lines 1 Chip Multilayer Delay Lines 2.00±0.15 0.95±0.10 (1) (4) (8) (5) (6) (7 , code are described herein.) If you have any sales office or Chip Multilayer Delay Lines LD H , Delay Lines L ±15% eDimension (LgW) yIndividual Specification Code (1) Code Dimension , ) 1.25±0.10 This Delay Line is developed by applying ceramic multilayering and via hole technology. It
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Delay Lines murata LDH311N50LAC-810 LDH211N00LAC-820 LDH21600PLAC-820 LDH21800PLAC-820 LDH21 LDH31

39E3336

Abstract: MGFS39E3336 DESCRIPTION MGFS39E3336 1 nF, 1005 Murata, GRM155B11H102KDA2 1 nF, 1005 Murata, GRM155B11H102KDA2 1 nF, 1005 Murata, GRM155B11H102KDA2 1.7 pF, 1005 Murata, GJM1554C1H1R7BB01 1.8 pF, 1005 Murata, GJM1554C1H1R8BB01 (Unused Number) 2.7 pF, 1005 Murata, GJM1553C1H2R7BB01 0.8 pF, 1005 Murata, GJM1554C1HR80BB01 1uF, 1608 Murata: GRM188B31E105KA75 4.7uF, 3216 Murata: GCM31CR71E475KA40 160kohms, 1005 Taiyosha , /microwave circuit. Be sure to use controlled impedance lines on all high-frequency inputs and outputs. A
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MGFS39E3336-01 39E3336 SWT-9 spectrum emission mask wimax 160kO GRM155B11H1 64QAM IEEE802

EIA-232 transformer

Abstract: , SR Propagation delay, TL Propagation delay, TR Transmission rate Supply voltage, VCC Supply current , control lines shown will need to be altered to suit the situation. The ENABLE control line (pin 11), puts , normally be used for the signal lines and the remaining pair will act as handshake lines. Figure 3 shows , Receiver TYPICAL OPERATING CHARACTERISTICS POWER UP TO TRANSMITTER OUTPUT DELAY SHUTDOWN TO POWER UP DELAY , (°C) 60 70 ENABLE & DISABLE TIMES VS TEMPERATURE PROPAGATION DELAY VS TEMPERATURE 300
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EIA-232 transformer NM232DD EIA-232-D EIA-232-D/E RS232 NM232DDC
Abstract: Coils/Delay Lines Coils/Delay Lines Chip Coils for General Use Magnetic Shielded Type 1.8±0.2 o LQH3ER Series +0.3 3.5 -0.2 +0.3 3.2 -0.2 Coils/Delay Lines 3 LQH3E Series 0.7min 0.7min (in mm) 0.7min Part Number Inductance (µH) Rated Current (mA) Max. of DC resistance (ohm) Q (min.) Self Resonance Frequency (MHz) LQH3ERNpppG01 1 to 100  , 115 muRata muRata
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LQM18N/LQM21N LQM18 LQM21 LQM21NNR10K10 N2R2K10 LQM21NN2R7K10

NM232dDc

Abstract: 55g murata voltage, VPP Output leakage current, IL Output slew rate, SR Propagation delay, TL Propagation delay , the control lines shown will need to be altered to suit the situation. The ENABLE control line (pin , . One receiver and transmitter will normally be used for the signal lines and the remaining pair will act as handshake lines. Figure 3 shows simply where the device will be connected. Figure 4 More , -232-D Transmitter and Receiver TYPICAL OPERATING CHARACTERISTICS POWER UP TO TRANSMITTER OUTPUT DELAY SHUTDOWN
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55g murata RS232 TTL self powered weight transmitter rs232 EIA-232-E
Abstract: delay, TL Propagation delay, TR Transmission rate Supply voltage, VCC Supply current, ICC Shutdown , circuitry will depend on the application and in particular the use of the control lines shown will need to , signal lines and the remaining pair will act as handshake lines. Figure 3 shows simply where the device , and Receiver TYPICAL OPERATING CHARACTERISTICS POWER UP TO TRANSMITTER OUTPUT DELAY SHUTDOWN TO POWER UP DELAY 7 7$$ 5065-0"%Lû 7 7 7$$7 74IVUEPXO 7 3-Lû $*Q muRata Power Solutions
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55g murata

Abstract: CL-2500 , SR Propagation delay, TL Propagation delay, TR Transmission rate Supply voltage, VCC Supply current , on the application and in particular the use of the control lines shown will need to be altered to , handshake modes. One receiver and transmitter will normally be used for the signal lines and the remaining pair will act as handshake lines. Figure 3 shows simply where the device will be connected. More , OPERATING CHARACTERISTICS POWER UP TO TRANSMITTER OUTPUT DELAY SHUTDOWN TO POWER UP DELAY 7
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CL-2500

LDHA28N00CAA-300

Abstract: LDH311N00LAC-810 specifications or transact the before ordering. Chip Multilayer Delay Lines 1 Chip Multilayer Delay Lines 1.60±0.2 (1) (4) (8) (5) (6) 1.1±0.2 0.5±0.1 This Delay Line was , or transact the before ordering. o Part Numbering Chip Multilayer Delay Lines LD H q , Time Tolerance A Product ID ±0.2ns Code Function K ±10% H Delay Lines L , Number Delay Time (ns) Impedance (ohm) Rising Time (ns) LDH311N00LAC-810 0.1 ±15% 50
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LDHA28N00CAA-300 LDH312N00LAC-810 LDH43 N91E7

LDH542N50BAA-600

Abstract: LDH322N50LAC-800 specifications or transact the before ordering. Chip Multilayer Delay Lines 1 Chip Multilayer Delay Lines 1.60±0.2 (1) (4) (8) (5) (6) 1.1±0.2 0.5±0.1 This Delay Line was , or transact the before ordering. o Part Numbering Chip Multilayer Delay Lines LD H q , Time Tolerance A Product ID ±0.2ns Code Function K ±10% H Delay Lines L , Number Delay Time (ns) Impedance (ohm) Rising Time (ns) LDH311N00LAC-810 0.1 ±15% 50
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LDH542N50BAA-600 LDH322N50LAC-800 ldh 0805 LDH54500PAAA-600 LDHA210N0CAA-300

nm232ddc

Abstract: , VPP Output leakage current, IL Output slew rate, SR Propagation delay, TL Propagation delay, TR , circuitry will depend on the application and in particular the use of the control lines shown will need to , signal lines and the remaining pair will act as handshake lines. Figure 3 shows simply where the device , DELAY SHUTDOWN TO POWER UP DELAY 7 7$$ 5065-0"%Lû 7 7 7$$7 74IVUEPXO , 5FNQFSBUVSF¡$ ENABLE & DISABLE TIMES VS TEMPERATURE PROPAGATION DELAY VS TEMPERATURE
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NM485SLC

Abstract: NM485SL Propagation delay time L to H, TPLH Propagation delay time H to L, TPHL Output disable time from high level , -8.0 DRIVER SWITCHING CHARACTERISTICS Parameter Differential output delay time, TDD Output disable time from high level, TPHZ Output disable time from low level, TPLZ Propagation delay time L to H, TPLH Propagation delay time H to L, TPHL Differential output transition time, TTD Output enable time to high level , -485 Driver and Receiver APPLICATION NOTES The increased use of balanced data transmission lines
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NM485SLC NM485SL EIA-485 NM485D

NM485SLC

Abstract: Propagation delay time L to H, TPLH Propagation delay time H to L, TPHL Output disable time from high level , delay time, TDD Output disable time from high level, TPHZ Output disable time from low level, TPLZ Propagation delay time L to H, TPLH Propagation delay time H to L, TPHL Differential output transition time , APPLICATION NOTES The increased use of balanced data transmission lines, (distributing data to several system components and peripherals over relatively long lines) has brought about the need for multiple driver
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