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Top Results (6)

Part Manufacturer Description Datasheet Download Buy Part
ACE333NHZO-1A ABB Critical Power ACE3000, 3 Bay / 9 Kilowatt Power Shelf, Phase: 30, Front End, Polarity: Negative, Positronic Backplane Connector, RoHS Compliant
ACE333NHYO-1A ABB Critical Power ACE3000, 3 Bay / 9 Kilowatt Power Shelf, Phase: 30, Front End, Polarity: Negative, Positronic Backplane Connector, RoHS 5-of-6 Compliant
ACE333NH-1A ABB Critical Power ACE3000, 3 Bay / 9 Kilowatt Power Shelf, Phase: 30, Front End, Polarity: Negative, Positronic Backplane Connector, RoHS Non-Compliant
ACE433NHZO-1A ABB Critical Power ACE4000, 3 Bay / 12 Kilowatt Power Shelf, Phase: 30, Front End, Polarity: Negative, Positronic Backplane Connector, RoHS Compliant
ACE433NH-1A ABB Critical Power ACE4000, 3 Bay / 12 Kilowatt Power Shelf, Phase: 30, Front End, Polarity: Negative, Positronic Backplane Connector, RoHS Non-Compliant
ACE433NHYO-1A ABB Critical Power ACE4000, 3 Bay / 12 Kilowatt Power Shelf, Phase: 30, Front End, Polarity: Negative, Positronic Backplane Connector, RoHS 5-of-6 Compliant

SIT9005ACF1H-33NH datasheet (1)

Part ECAD Model Manufacturer Description Type PDF
SIT9005ACF1H-33NH SIT9005ACF1H-33NH ECAD Model SiTIME Crystals, Oscillators, Resonators - Programmable Oscillators - MEMS OSC PRG SSXO LVCMOS CS 3.3V Original PDF

SIT9005ACF1H-33NH Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
2013 - Not Available

Abstract: No abstract text available
Text: 90 80 3.3nH Q Factor 56nH 50 0.0276 (0.70) MAX 0.004 (0.10) REF 33nH 60 0.0256 (0.065) MAX 0.0472 (1.20) MAX 70 3.3nH 10nH 33nH 56nH 40 RECOMMENDED FOOT , Q Versus Frequency 10nH 90 3.3nH 70 Q Factor 56nH 50 0.0276 (0.70) MAX 0.004 (0.10) REF 33nH 60 0.0256 (0.065) MAX 0.0472 (1.20) MAX 80 3.3nH 10nH 33nH


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PDF CC0402 CC0402-0018* CC0402-0019* CC0402-0020* CC0402-0022* CC0402-0024* CC0402-0025* CC0402-0027* CC0402-0029* CC0402-0033*
2014 - Not Available

Abstract: No abstract text available
Text: 80 3.3nH Q Factor 56nH 50 0.0276 (0.70) MAX 0.004 (0.10) REF 33nH 60 0.0256 (0.065) MAX 0.0472 (1.20) MAX 70 3.3nH 10nH 33nH 56nH 40 0.026 (0.66) 20 , 90 3.3nH 70 Q Factor 56nH 50 0.0276 (0.70) MAX 0.004 (0.10) REF 33nH 60 0.0256 (0.065) MAX 0.0472 (1.20) MAX 80 3.3nH 10nH 33nH 56nH 40 TAPE AND REEL SPECS


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PDF CC0402 CC0402-0009* CC0402-0010* CC0402-0012* CC0402-0018* CC0402-0019* CC0402-0020* CC0402-0022* CC0402-0024* CC0402-0025*
2000 - LQP21A6N8C14

Abstract: Murata LQP21A LQP21A68NG14
Text: CHARACTERISTICS LQP10A 100 80 60 Q 40 8.2nH 20 33nH 0 100 1000 Frequency (MHz) 10000 1 100 1000 Frequency (MHz) Inductance (nH) INDUCTANCE-FREQUENCY CHARACTERISTICS LQP10A 100 33nH 2.2nH 10 8.2nH 2.2nH 10000 LQP11A 200 160 LQP11A 1000 100nH 68nH 33nH 15nH 6.8nH Inductance (nH) 120 Q 80 40 0 100 100nH 1000 Frequency (MHz) 1.5nH 100 3.3nH 6.8nH 15nH 33nH 68nH 10000 10 3.3nH 1.5nH , ) 68nH 10nH 22nH 5.6nH 39nH 10000 1.5nH 3.3nH LQP21A 1000 100nH 68nH 39nH 22nH 10nH 5.6nH 10 3.3nH


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PDF LQP10A/11A/21A LQP10A LQP11A 100nH LQP21A LQP21A6N8C14 Murata LQP21A LQP21A68NG14
2014 - Not Available

Abstract: No abstract text available
Text: 90 80 3.3nH Q Factor 56nH 50 0.0276 (0.70) MAX 0.004 (0.10) REF 33nH 60 0.0256 (0.065) MAX 0.0472 (1.20) MAX 70 3.3nH 10nH 33nH 56nH 40 0.026 (0.66) 20 , 90 3.3nH 70 Q Factor 56nH 50 0.0276 (0.70) MAX 0.004 (0.10) REF 33nH 60 0.0256 (0.065) MAX 0.0472 (1.20) MAX 80 3.3nH 10nH 33nH 56nH 40 TAPE AND REEL SPECS


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PDF CC0402 CC0402-0009* CC0402-0010* CC0402-0012* CC0402-0018* CC0402-0019* CC0402-0020* CC0402-0022* CC0402-0024* CC0402-0025*
2000 - Murata LQP21A

Abstract: LQP1 LQP21A6N8C LQP11A15
Text: LQP10A 100 80 60 Q 40 8.2nH 20 33nH 0 100 1000 Frequency (MHz) 10000 1 100 1000 Frequency (MHz) Inductance (nH) INDUCTANCE-FREQUENCY CHARACTERISTICS LQP10A 100 33nH 2.2nH 10 8.2nH 2.2nH 10000 LQP11A 200 160 LQP11A 1000 100nH 68nH 33nH 15nH 6.8nH Inductance (nH) 120 Q 80 40 0 100 100nH 1000 Frequency (MHz) 1.5nH 100 3.3nH 6.8nH 15nH 33nH 68nH 10000 10 3.3nH 1.5nH , ) 68nH 10nH 22nH 5.6nH 39nH 10000 1.5nH 3.3nH LQP21A 1000 100nH 68nH 39nH 22nH 10nH 5.6nH 10 3.3nH


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PDF LQP10A/11A/21A LQP10A LQP11A 100nH LQP21A Murata LQP21A LQP1 LQP21A6N8C LQP11A15
1998 - avx capacitor 47pf

Abstract: 900mhz frequency generator MAX2661EVKIT capacitor 1pF 47PF MAX2671EVKIT MAX2671 MAX2663EVKIT MAX2661 capacitor u1
Text: L1 1 33nH inductor L2 1 1 MAX2660EVKIT -40°C to +85°C 6 SOT23-6 MAX2661EVKIT , 1900MHz 2450MHz L1 Short 33nH 8.2nH 3.3nH L2 39nH 18nH 2.7nH 2.2nH C3 , Short 33nH 8.2nH 3.3nH L2 39nH 18nH 2.7nH 1.8nH C3 470pF 47pF 47pF , Open C6 6.8pF 1pF 1.5pF C7 470pF 47pF 47pF 47pF L1 Short 33nH 8.2nH 3.3nH L2 1.8nH 1.8nH 47pF 47pF 47pF C4 220pF 47pF 47pF 47pF


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PDF MAX2660/MAX2661/MAX2663/ MAX2671 40MHz 500MHz, 600MHz 2400MHz. 900MHz. 900MHz 220pF, MAX2660 avx capacitor 47pf 900mhz frequency generator MAX2661EVKIT capacitor 1pF 47PF MAX2671EVKIT MAX2663EVKIT MAX2661 capacitor u1
2000 - LQP10A

Abstract: LQP10A3N0B LQP coil LQP10A4N7B
Text: TYPICAL ELECTRICAL CHARACTERISTICS Q-FREQUENCY CHARACTERISTICS LQP10A 100 80 60 Q 40 8.2nH 20 33nH 0 100 , CHARACTERISTICS LQP10A 100 33nH 2.2nH 10 8.2nH 2.2nH 10000 LQP11A 200 160 LQP11A 1000 100nH 68nH 33nH 15nH 6.8nH Inductance (nH) 120 Q 80 40 0 100 100nH 1000 Frequency (MHz) 1.5nH 100 3.3nH 6.8nH 15nH 33nH 68nH 10000 10 3.3nH 1.5nH 1000 Frequency (MHz) 10000 1 100 SURFACE MOUNT


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PDF LQP10A/11A LQP11A82NG00 LQP11AR10G00 CG01-J LQP10A LQP11A 100nH LQP10A LQP10A3N0B LQP coil LQP10A4N7B
2012 - LQP03TG9N1H02

Abstract: LQW2UAS1R8J00 LQW2BASR56J00 LQW2UAS27NG00 LQW2BASR82j00 LQP03TN47NJ02 LQP03TN18NH02 LQP03TG LQP02TN0N4B02 LQP03TN6n2h02
Text: 1.8nH ±0.3nH 2.0nH ±0.3nH 2.2nH ±0.3nH 2.4nH ±0.3nH 2.7nH ±0.3nH 3.0nH ±0.3nH 3.3nH ±0.3nH 3.6nH ±0.3nH , ±5% 9.1nH ±5% 10nH ±5% 12nH ±5% 15nH ±5% 18nH ±5% 22nH ±5% 27nH ±5% 33nH ±5% 39nH ±5% 47nH ±5% 56nH , ±0.3nH 2.7nH ±0.3nH 3.3nH ±0.3nH 3.9nH ±0.3nH 4.7nH ±0.3nH 5.6nH ±0.3nH Q (min.) 12 12 12 12 12 12 12 12 , 10nH ±5% 12nH ±5% 15nH ±5% 18nH ±5% 22nH ±5% 27nH ±5% 33nH ±5% 39nH ±5% 47nH ±5% 56nH ±5% 68nH ±5% 82nH , 1.9nH 2.0nH 2.1nH 2.2nH 2.3nH 2.4nH 2.5nH 2.6nH 2.7nH 2.8nH 2.9nH 3.0nH 3.1nH 3.2nH 3.3nH 3.4nH 3.5nH


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PDF oEKLMQ15SC LQG15HS1N0S02 LQG15HS1N1S02 LQG15HS1N2S02 LQG15HS1N3S02 LQG15HS1N5S02 LQG15HS1N6S02 LQG15HS1N8S02 LQG15HS2N0S02 LQG15HS2N2S02 LQP03TG9N1H02 LQW2UAS1R8J00 LQW2BASR56J00 LQW2UAS27NG00 LQW2BASR82j00 LQP03TN47NJ02 LQP03TN18NH02 LQP03TG LQP02TN0N4B02 LQP03TN6n2h02
2013 - Not Available

Abstract: No abstract text available
Text: LQW04AN3N3C00p 3.3nH ±0.2nH 100MHz 440mA 0.14Ω 10 250MHz 10.0GHz LQW04AN3N3D00p 3.3nH ±0.5nH 100MHz 440mA 0.14Ω 10 250MHz 10.0GHz LQW04AN3N6C00p 3.6nH  , LQW04AN27NJ00p 27nH ±5% 100MHz 160mA 0.95Ω 15 250MHz 4.0GHz LQW04AN33NH00p 33nH ±3% 100MHz 140mA 1.11Ω 15 250MHz 4.0GHz LQW04AN33NJ00p 33nH ±5% 100MHz 140mA , (Typ.) 100 100 1.1nH 90 33nH 80 5.6nH 3.3nH 22nH 22nH L (nH) 10nH 60 Q


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PDF LQW04AN 180mm LQW04AN1N1C00p 100MHz 990mA 250MHz LQW04AN1N1D00p
2010 - IEC61071

Abstract: No abstract text available
Text: 1050 1100 0.7 1.0 1.1 0.7 1.0 0.6 0.8 1.0 2.0 0.7 1.2 2.5 1.2 2.0 2.5 25NH 33NH 40NH 25NH 33NH 40NH 25NH 33NH 40NH 25NH 33NH 40NH 25NH 33NH 40NH CONSTRUCTION ELECTRODE: CASE: POTTING: TERMINALS


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PDF IEC61071
2000 - LQP21A6N8C14

Abstract: LQP21 LQP21A47NG14 LQP21A LQP11 LQP1 LQP11A15NG LQP11A15
Text: Q-FREQUENCY CHARACTERISTICS LQP10A 100 80 60 Q 40 8.2nH 20 33nH 0 100 1000 Frequency (MHz) 10000 1 100 1000 Frequency (MHz) Inductance (nH) INDUCTANCE-FREQUENCY CHARACTERISTICS LQP10A 100 33nH 2.2nH 10 8.2nH 2.2nH 10000 LQP11A 200 160 LQP11A 1000 100nH 68nH 33nH 15nH 6.8nH Inductance (nH) 120 Q 80 40 0 100 100nH 1000 Frequency (MHz) 1.5nH 100 3.3nH 6.8nH 15nH 33nH 68nH 10000 10 3.3nH 1.5nH 1000 Frequency (MHz) 10000 1 100 218 CG01-I REV. 1 muRata


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PDF LQP10A/11A CG01-I LQP10A LQP11A 100nH CG01-I LQP21A6N8C14 LQP21 LQP21A47NG14 LQP21A LQP11 LQP1 LQP11A15NG LQP11A15
1999 - IMC-0402

Abstract: No abstract text available
Text: 3.3nH INDUCTANCE ± 9% TOLERANCE [Numbers in brackets indicate millimeters] Solder Pad Layout , 5 L (nH) 2.2nH Q 1.0nH Q IMC-0402 L & Q vs Frequency 3.3nH - 6.8nH 80 70 60 50 Q 40 30 20 10 0 10000 L (nH) 20 15 10 5 0 100 1000 IMC-0402 L & Q vs Frequency 33nH - 47nH 60 50 105 95 85 L (nH) 40 30 Q 75 65 55 45 35 0 47nH Q 33nH Q 35 30 25 6.8nH Q 3.3nH Q 70 60 50 40 30 20 10 0 10000 Q 40


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PDF IMC-0402 160mm 390mm 29-Apr-99 IMC-0402
2006 - Not Available

Abstract: No abstract text available
Text: (1/3) SMD Inductors(Coils) For High Frequency(Multilayer) MLK Series MLK0603 FEATURES · Supports operating frequency bands of up to 12GHz with nominal inductance values from 1 to 33nH . · The gigaspiral multilayer structure reduces self-resonant frequencies and suppresses the reduction of Q values in gigahertz bandwidths. · Advanced monolithic structure is formed using a multilayering and sintering process , 30 100 Inductance(nH) 33nH 1.0nH 20 3.3nH 10 10nH 3.3nH Q 10nH 33nH 10 1


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PDF MLK0603 12GHz mlk0603
2005 - IMC-1008

Abstract: HP4286A
Text: Inductance Range: 3.3nH to 47,000nH. Inductance Tolerance: 0.3nH for 3.3nH . ± 5% for 6.8nH to 47,000nH. Operating Temperature: - 40°C to 125°C. Core Material: Ceramic from 3.3nH to 1000nH. Ferrite from 1200nH , ER PACKAGE CODE e4* JDEC LEAD FREE STANDARD *NOTE: For parts within 3.3nH to 910nH please use , Mount Inductor Vishay Dale PERFORMANCE GRAPHS IMC-1008 Q vs Frequency 120 100 3.3nH 80 , 3900nH 1000nH 1000 390nH 100nH 100 47nH 18nH 10 3.3nH 1 1 10 100 1000 10000


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PDF IMC-1008 10-Jan-05 IMC-1008 HP4286A
NIC0805

Abstract: NIC0805-12N NIC0805-15N NIC0805-18N NIC0805-22N NIC0805-27N NIC0805-3N3 NIC0805-6N8 NIC0805-8N2
Text: under 33nH ±10% for value 33nH and above* - Current rating Based on value obtain when coil has , 33nH and 5% tolerance for value 33nH and above .Please state on your order C Associated


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PDF NIC0805 HP4291B HP-16193 solve500 NIC0805 NIC0805-12N NIC0805-15N NIC0805-18N NIC0805-22N NIC0805-27N NIC0805-3N3 NIC0805-6N8 NIC0805-8N2
2007 - Not Available

Abstract: No abstract text available
Text: Characteristics (Typ.) 200 1.5nH 160 I Inductance - Frequency Characteristics (Typ.) 1000 100nH 68nH 33nH 100 15nH Q 120 3.3nH 80 Inductance (nH) 6.8nH 10 3.3nH 6.8nH 40 33nH 0 100 100nH 1000


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PDF LQP18M 180mm 330mm LQP18MN1N3C02p LQP18MN1N5C02p LQP18MN1N8C02p LQP18MN2N2C02p LQP18MN2N7C02p LQP18MN3N3C02p LQP18MN3N9C02p
2008 - Not Available

Abstract: No abstract text available
Text: Frequency Characteristics (Typ.) 1000 100nH 68nH 33nH 100 15nH Q 120 3.3nH 80 Inductance (nH) 6.8nH 10 3.3nH 6.8nH 40 33nH 0 100 100nH 1000 Frequency (MHz) 68nH 10000 15nH 1 100 1.5nH 1000


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PDF LQP18M 180mm 330mm LQP18MN1N3C02p LQP18MN1N5C02p LQP18MN1N8C02p LQP18MN2N2C02p LQP18MN2N7C02p LQP18MN3N3C02p LQP18MN3N9C02p
2005 - Not Available

Abstract: No abstract text available
Text: ELECTRICAL SPECIFICATIONS Inductance Range: 3.3nH to 47,000nH. Inductance Tolerance: 0.3nH for 3.3nH . ± 5% for 6.8nH to 47,000nH. Operating Temperature: - 40°C to 125°C. Core Material: Ceramic from 3.3nH to , *NOTE: For parts within 3.3nH to 910nH please use e4 for JDEC lead free standard. For parts within 1µH , Q vs Frequency 100 3.3nH 80 Q 60 390nH 40 18nH 100nH 20 1000nH 0 1 10 18000nH 3900nH 100 , 1000nH 1000 390nH 100nH 100 47nH 18nH 10 3.3nH 1 1 10 100 1000 10000 Inductance nH Frequency MHz


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PDF IMC-1008 08-Apr-05
LQN21AR18J04

Abstract: E-06-E LQN21A O05E LQN21A22NJ04 LQN21AR12J04 LQG21N LQG11A2N7S00 LQN21AR15J LQG21N1R0K10
Text: 3.3nH 120 Q 80 0.8 ± 0.15 10nH 40 1.6 ± 0.15 68nH 0.8 ± 0.15 0 100 1000 , 3.3nH 80 1000 Frequency (MHz) 1000 Frequency (MHz) 39nH 68nH 80 0 100 10000 10nH 22nH 40 15nH 33nH 0 100 10000 Q 6.8nH 40 33nH 3.3nH 120 120 , Oscillators FEATURES s Broad inductance range ( 3.3nH to 220nH) s Tight inductance tolerance s EIA , Q 40 20 0 0.5 0.5 min. 0.5 min. min. 3.3nH 220nH 33nH 10nH 1 10 100 1000


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PDF LQG11A LQG11A 100nH E-06-E. O05E-3. LQN21AR18J04 E-06-E LQN21A O05E LQN21A22NJ04 LQN21AR12J04 LQG21N LQG11A2N7S00 LQN21AR15J LQG21N1R0K10
2010 - 856541

Abstract: No abstract text available
Text: parasitics 33nH 27nH 10 200 Balanced Input 6 15pF 18pF 200 33nH Subject to change , Test Circuit: Actual matching values may vary due to PCB layout and parasitics 33nH 27nH 10 200 Balanced Input 6 15pF 18pF 200 33nH Subject to change or obsolescence without , Actual matching values may vary due to PCB layout and parasitics 33nH 27nH 10 200 Balanced Input 6 15pF 18pF 200 33nH 1 2,3,4 7,8,9 5 200 Balanced Output 200


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PDF 2002/95/EC) SMP-53C 856541
2000 - 3n3 j 630

Abstract: LQN21A27NJ04 LQN21AR10 LQN21A15NJ04 LQN21A LQN21A10NJ04 LQN21A18NJ04 LQN21A6N8D04 LQN21A22NJ04 LQN21AR22
Text: equipment. FEATURES s s s s s Broad inductance range ( 3.3nH to 220nH) Tight inductance tolerance EIA , INDUCTANCE CODE 3N3: 3.3nH SPECIFICATIONS Inductance Dimensions: mm Part Number LQN21A3N3D04 , Murata Electronics Distributors. TYPICAL Q-FREQUENCY CHARACTERISTICS 100 80 60 Q 40 20 0 3.3nH 220nH 33nH 10nH 1 10 100 1000 Frequency (MHz) 10000 296 CG01-H muRata


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PDF LQN21A 220nH) SPECLQN21A12NJ04 LQN21A15NJ04 LQN21A18NJ04 LQN21A22NJ04 LQN21A27NJ04 LQN21A33N LQN21A39N 3n3 j 630 LQN21AR10 LQN21A10NJ04 LQN21A6N8D04 LQN21AR22
2001 - MLK0603

Abstract: No abstract text available
Text: (1/3) SMD Inductors(Coils) For High Frequency(Multilayer) Conformity to RoHS Directive MLK Series MLK0603 FEATURES · Supports operating frequency bands of up to 12GHz with nominal inductance values from 1 to 33nH . · The gigaspiral multilayer structure reduces self-resonant frequencies , CHARACTERISTICS Q vs. FREQUENCY CHARACTERISTICS 30 1000 1.0nH 33nH 20 3.3nH 10nH 10 Q Inductance(nH) 100 10nH 33nH 3.3nH 1 10 1.0nH 0 10 100 1000 Frequency (MHz) 0


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PDF MLK0603 12GHz 160min. 200min. 300min. mlk0603
2004 - IMC-1008

Abstract: No abstract text available
Text: Inductance Range: 3.3nH to 22,000nH. Inductance Tolerance: 0.3nH for 3.3nH . ± 5% for 6.8nH to 22,000nH. Operating Temperature: - 40°C to 125°C. Core Material: Ceramic from 3.3nH to 1000nH. Ferrite from 1200nH , vs Frequency 120 100 3.3nH 80 Q 60 390nH 40 18nH 100nH 20 47nH 1000nH 18000nH , 100000 18000nH 10000 Inductance nH 3900nH 1000nH 1000 390nH 100nH 100 47nH 18nH 10 3.3nH


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PDF IMC-1008 09-Jan-04 IMC-1008
2004 - IMC-1008

Abstract: No abstract text available
Text: ELECTRICAL SPECIFICATIONS Inductance Range: 3.3nH to 47,000nH. Inductance Tolerance: 0.3nH for 3.3nH . ± 5% for 6.8nH to 47,000nH. Operating Temperature: - 40°C to 125°C. Core Material: Ceramic from 3.3nH to , Frequency 100 3.3nH 80 Q 60 390nH 40 18nH 100nH 20 1000nH 0 1 10 18000nH 3900nH 100 1000 10000 47nH , 47nH 18nH 10 3.3nH 1 1 10 100 1000 10000 Inductance nH Frequency MHz TAPE AND REEL


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PDF IMC-1008 IMC-1008 30-Jan-04
2009 - SAYE

Abstract: murata SAW
Text: max. 0.3 dB 4-0.65±0.05 1.8 max. 1.8 max. 1.4 50W (ANT: w ith Parallel Coil: 3.3nH , 50W( ANT: w ith Parallel Coil: 3.3nH ) Marking : Laser Printing (3) (1) (6) Others : Tx : Rx : ANT , Circuit Tx Ant 50W 5 4 3 6 7 8 1 3.3nH 50W 50W 2 S.S.G. RF Voltmeter V1 50W Ant Rx 5 4 3 3.3nH 50W 6 7 8 1 50W RF Voltmeter V1 S.S.G. 2 Tx Rx 50W 5 4 3 6 7 8 1 3.3nH 50W 2 S.S.G. 50W RF Voltmeter V1 This PDF Datasheet is downloaded from


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PDF SAYEV1G76AE2F00 1765MHz 1780MHz) SAYE murata SAW
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