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Top Results (6)

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

Delay Lines murata Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
GRM31 Murata

Abstract:
Text: ://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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PDF K26E-6 GRM31 Murata P05E transistor SMD making code GC piezoelectric disc 5A 1 Mhz Chip Multilayer Delay Lines murata PTC THERMISTOR FOR DEGAUSSING piezotite CSTCE-G murata K26E inductor 100 micro henry
2005 - SMD resistors 1806

Abstract:
Text: ://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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PDF K26E5 K26E-5 SMD resistors 1806 inductor 100 micro henry Ultrasonic Piezoelectric murata ultrasonic sensor RX TX Ultrasonic bubble Chokes* COMMON MODE SUPPRESSION 250V MuRata capacitors 1uF 0201 Chip Multilayer Delay Lines murata GIGAFIL "Piezoelectric transducer" ultrasonic, murata
MSA1AA001

Abstract:
Text: 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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PDF MSA1AA001 MSA1AA001
2000 - Chip Multilayer Delay Lines

Abstract:
Text: 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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2001 - Delay Lines murata

Abstract:
Text: 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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PDF N91E6 Delay Lines murata LDH211N00LAC-820 LDH21600PLAC-820 LDH21800PLAC-820 LDH311N50LAC-810
2012 - EIA-232 transformer

Abstract:
Text: , 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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PDF NM232DD EIA-232-D EIA-232-D/E C2048-1151 EIA-232 transformer
2003 - LDHA28N00CAA-300

Abstract:
Text: 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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PDF N91E7 LDHA28N00CAA-300 Chip Multilayer Delay Lines murata LDH311N00LAC-810 LDH311N50LAC-810 LDH312N00LAC-810 LDH43
2003 - LDH542N50BAA-600

Abstract:
Text: 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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PDF N91E7 LDH542N50BAA-600 LDH322N50LAC-800 LDHA28N00CAA-300 LDH43 LDH312N00LAC-810 LDH311N50LAC-810 LDH311N00LAC-810 ldh 0805 Delay Lines murata Chip Multilayer Delay Lines murata
2008 - NM232dDc

Abstract:
Text: 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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PDF NM232DDC EIA-232-D NM232DDC 55g murata Delay Lines murata RS232 TTL self powered weight transmitter rs232
2008 - Not Available

Abstract:
Text: 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


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PDF NM232DDC EIA-232-D EIA-232-D/E NM232DDC
2009 - 39E3336

Abstract:
Text: 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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PDF MGFS39E3336-01 39E3336 30dBm 64QAM, 40deg 39E3336 MGFS39E3336 SWT-9 GRM188B31E105KA75 MGFS39E3336-01 spectrum emission mask wimax 160kO GRM155B11H1 GRM188B31E
2012 - 55g murata

Abstract:
Text: , 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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PDF NM232DD EIA-232-D EIA-232-D/E 55g murata CL-2500
2012 - nm232ddc

Abstract:
Text: , 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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PDF NM232DDC EIA-232-D TT02048-1151 NM232DD
2008 - NM485SLC

Abstract:
Text: 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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PDF NM485SLC EIA-485 NM485D NM485SLC NM485SL
2012 - NM485SLC

Abstract:
Text: 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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PDF NM485SLC EIA-485 NM485D NM485SLC
2012 - NM485SL

Abstract:
Text: 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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PDF NM485SLC EIA-485 NM485D EIA-48nd NM485SLC NM485SL NM485S
2012 - NM485S

Abstract:
Text: SWITCHING CHARACTERISTICS Parameter Propagation delay time L to H, TPLH Propagation delay time H to L , 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 , 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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PDF NM485SLC EIA-485 NM485D NM485S
2008 - NM485SL

Abstract:
Text: Propagation delay time L to H, TPLH Propagation delay time H to L, TPHL Output disable time from high level , DRIVER SWITCHING CHARACTERISTICS Parameter Test conditions 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 , -485 Driver and Receiver APPLICATION NOTES The increased use of balanced data transmission lines


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PDF NM485SLC EIA-485 NM485D NM485SLC NM485SL NM485D 12V1 Delay Lines murata
Not Available

Abstract:
Text: 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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PDF MGFS39E3336-01 39E3336 30dBm 64QAM,
2005 - Not Available

Abstract:
Text: Coils/ Delay Lines 05.05.30 Antenna Coils for Receiving 2.8±0.1 5.5±0.15 0.8 +0.05 0.65-0 4.2±0.1 0.7 0.8 3 11±0.3 10.9 (in mm) Part Number MSA1AA001 Applications Antenna coil for receiving Size 11.0x4.2x2.8mm Inductance (mH) 2.8 ±5% Resistance (ohm) 21 ±5% Q Receiving , transact the approval sheet for product specifications. 183 Coils/ Delay Lines 8 3.1±0.1 muRata


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PDF MSA1AA001
2012 - What is a TRANSZORB

Abstract:
Text: . RECEIVER SWITCHING CHARACTERISTICS Parameter Propagation delay time L to H, TPLH Propagation delay time H , ±100 20 -15 -250 250 2.0 DRIVER SWITCHING CHARACTERISTICS Parameter Differential output delay , Propagation delay time L to H, TPLH Propagation delay time H to L, TPHL Differential output transition time , -485 standard is an upgrade version of the EIA RS-422 standard. The use of balanced data transmission lines in distributing data to several systems components and peripherals over relatively long lines , requires the use of


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PDF NM485DC EIA-485 What is a TRANSZORB
2009 - NM485DC

Abstract:
Text: supplied in a low profile 24 pin DIL plastic package. Parameter Test conditions Propagation delay time L to H, TPLH Propagation delay time H to L, TPHL VID=-1.5V to 1.5V, CL=15pF Min. Max , SWITCHING CHARACTERISTICS Parameter Test conditions 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


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PDF NM485DC EIA-485 12V1 NM485D
2008 - NM485D

Abstract:
Text: package. Parameter Test conditions Propagation delay time L to H, TPLH Propagation delay time H , conditions 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 , . The use of balanced data transmission lines in distributing data to several systems components and peripherals over relatively long lines , requires the use of multiple driver/receiver combinations on a single


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PDF NM485DC EIA-485 NM485DC NM485D 12V1
2012 - NM485D

Abstract:
Text: CHARACTERISTICS Parameter Propagation delay time L to H, TPLH Propagation delay time H to L, TPHL Test , 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 , data transmission lines in distributing data to several systems components and peripherals over


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PDF NM485DC EIA-485 NM485D
2008 - What is a TRANSZORB

Abstract:
Text: . RECEIVER SWITCHING CHARACTERISTICS Parameter Propagation delay time L to H, TPLH Propagation delay time H , 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 , the EIA RS-422 standard. The use of balanced data transmission lines in distributing data to several systems components and peripherals over relatively long lines , requires the use of multiple driver


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PDF NM485DC EIA-485 NM485DC What is a TRANSZORB
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