NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
NEW DATABASE - 350 MILLION DATASHEETS FROM 8500 MANUFACTURERS
| Catalog Datasheet Results | Type | Document Tags |
| Abstract: 1 ELECTRO-ACOUSTIC TRANSDUCER ROHS COMPLIANT PART NUMBER: BRT2821P-06 BRT2821P-06 SPECIFICATIONS: RATED VOLTAGE: OPERATING VOLTAGE: MAX CURRENT: SOUND OUTPUT LEVEL: TERMINAL TYPE: RESONANT FREQUENCY , : MOUNTING DIMENSIONS: COMMENTS: *VALUE APPLYING RATED VOLTAGE (RESONANT FREQUENCY, *VALUE APPLYING (RESONANT FREQUENCY, SINE WAVE, M 6 VDC 4~9 35 mA 90dB @ 30 cm 2 PINS 2800 ± 200 -20 TO +60°C CONTINUOUS N/A NOT APPLIC WITH BUILT 28.0 mm 20.0 mm 14.0 mm DIMENSIONS: FREQUENCY RESPONSE: ... | Original |
2 pages, |
BRT2821P-06 BRT2821P-06 abstract |
|
|||
| Abstract: 1 ELECTRO-ACOUSTIC TRANSDUCER ROHS COMPLIANT PART NUMBER: BRT1209PF-12 BRT1209PF-12 SPECIFICATIONS: RATED VOLTAGE: OPERATING VOLTAGE: MAX CURRENT: SOUND OUTPUT LEVEL: TERMINAL TYPE: RESONANT FREQUENCY: OPERATING TEMPERATURE: TONE MODE: PULSE RATE: COIL RESISTANCE: COIL IMPEDANCE: FRAME DIAMETER: FRAME DEPTH: MOUNTING DIMENSIONS: COMMENTS: *VALUE APPLYING RATED VOLTAGE (RESONANT FREQUENCY, *VALUE APPLYING (RESONANT FREQUENCY, SINE WAVE, M 12 VDC 7 ~ 15 40 mA 85dB @ 10 cm 2 PINS 2400 Hz -40 TO +85°C CONTINUOUS ... | Original |
2 pages, |
BRT1209PF-12 BRT1209PF-12 abstract |
|
|||
| Abstract: N/A 50 ± 7.5 140 12.0 mm 8.5 mm 6.5 mm COMMENTS: *VALUE APPLYING RATED VOLTAGE (RESONANT FREQUENCY, *VALUE APPLYING (RESONANT FREQUENCY, SINE WAVE, M DIMENSIONS: , ELECTRO-ACOUSTIC TRANSDUCER ROHS COMPLIANT AVAILABLE UPON REQUEST PART NUMBER: BRT1209P-01-50 BRT1209P-01-50 SPECIFICATIONS: RATED VOLTAGE: OPERATING VOLTAGE: MAX CURRENT: SOUND OUTPUT LEVEL: TERMINAL TYPE: RESONANT FREQUENCY: OPERATING TEMPERATURE: TONE MODE: PULSE RATE: COIL RESISTANCE: COIL IMPEDANCE: FRAME DIAMETER ... | Original |
1 pages, |
BRT1209P-01-50 BRT1209P-01-50 abstract |
|
|||
| Abstract: ECRHTC TOKO Part Number DECRHZ20 DECRHZ20.00 · · Resonant Frequency (MHz) 20.00±0.5% Resonant Impedance ()Max. 80 Resonant Frequency Temperature Stability (-20°C~+80°C) ±0.2% Resonant , ICs. Please contact us regarding applicable products. Resonant frequency test circuit 1M F.C , resonation frequency range: 20.0 to 50.0MHz Features · · · · · Applications · · · · · , line sets. Precise oscillating frequency without adjustment Load capacitors (C1,C2) not required May ... | Original |
1 pages, |
TC74HCU04AP SMD Capacitor types datasheet abstract |
|
|||
| Abstract: TOKO Part Number DECRHTC4.00 DECRHTC6.00 DECRHTC8.00 Resonant Frequency (MHz) 4.000.5% 6.000.5% 8.000.5% Resonant Impedance ()Max. 60 60 60 Resonant frequency tolerance can be , regarding applicable products. Resonant frequency test circuit Resonant Frequency Temperature , oscillators Applicable resonation frequency range: 4.0 to 8.0MHz MHz 4.08.0MHz Features SMD, Miniature size and low profile ideal for slim line sets. Precise oscillating frequency without ... | Original |
1 pages, |
datasheet abstract |
|
|||
| Abstract: / ECRHTC TOKO Part Number DECRHZ20 DECRHZ20.00 Resonant Frequency (MHz) 20.000.5% Resonant Impedance ()Max. 80 Resonant Frequency Temperature Stability (-20C~+80C) 0.2% Resonant , ICs. Please contact us regarding applicable products. Resonant frequency test circuit 1M F.C. , resonation frequency range: 20.0 to 50.0MHz MHz 20.050.0MHz Features SMD, Miniature size and low profile ideal for slim line sets. Precise oscillating frequency without adjustment ... | Original |
1 pages, |
TC74HCU04AP datasheet abstract |
|
|||
| Abstract: TOKO Part Number DECRHTC4.00 DECRHTC6.00 DECRHTC8.00 · · Resonant Frequency (MHz) 4.00±0.5% 6.00±0.5% 8.00±0.5% Resonant Impedance ()Max. 60 60 60 Resonant frequency tolerance , contact us regarding applicable products. Resonant frequency test circuit Resonant Frequency , frequency range: 4.0 to 8.0MHz Features · · · · · SMD, Miniature size and low profile ideal for slim line sets. Precise oscillating frequency without adjustment Load capacitors (C1,C2) not ... | Original |
1 pages, |
TV MICROPROCESSORS datasheet abstract |
|
|||
| Abstract: ECRHTC TOKO Part Number DECRHZ20 DECRHZ20.00 · · Resonant Frequency (MHz) 20.00±0.5% Resonant Impedance ()Max. 80 Resonant Frequency Temperature Stability (-20°C~+80°C) ±0.2% Resonant , ICs. Please contact us regarding applicable products. Resonant frequency test circuit 1M F.C , resonation frequency range: 20.0 to 50.0MHz Features · · · · · Applications · · · · · , line sets. Precise oscillating frequency without adjustment Load capacitors (C1,C2) not required May ... | Original |
1 pages, |
TC74HCU04AP datasheet abstract |
|
|||
| Abstract: / TYPE ECRHTC / ECRHTC TOKO Part Number DECRHZ20 DECRHZ20.00 · · Resonant Frequency (MHz) 20.00±0.5% Resonant Impedance ()Max. 80 Resonant Frequency Temperature Stability (-20°C~+80°C) ±0.2% Resonant frequency tolerance can be designed to a desired level. TOKO performs matching evaluation for all types of ICs. Please contact us regarding applicable products. Resonant frequency test , frequency range: 20.0 to 50.0MHz · MHz · 20.050.0MHz Features · · · · · · · · · · ... | Original |
1 pages, |
TC74HCU04AP datasheet abstract |
|
|||
| Abstract: DECRHTC8.00 · · Resonant Frequency (MHz) 4.00±0.5% 6.00±0.5% 8.00±0.5% Resonant Impedance ()Max. 60 60 60 Resonant frequency tolerance can be designed to a desired level. TOKO performs , frequency test circuit Resonant Frequency Temperature Stability (-20°C~+80°C) ±0.2% ±0.2% ±0.2% , · Applicable resonation frequency range: 4.0 to 8.0MHz · MHz · 4.08.0MHz Features · , Precise oscillating frequency without adjustment Load capacitors (C1,C2) not required May be used in ... | Original |
1 pages, |
datasheet abstract |
|
|||
| Abstract | Saved from | Date Saved | File Size | Type | Download |
| Over 1.1 million files (1986-2013): html articles, reference designs, gerber files, chemical content, spice models, programs, code, pricing, images, circuits, parametric data, RoHS data, cross references, pcns, military data, and more. Please note that due to their age, these files do not always format correctly in modern browsers. Disclaimer. |
|||||
| resonators possible. 2. The resonant frequency temperature coefficient can be chosen from -4 to 10ppm/(degree C). Tolerance of the frequency temperature coefficient can be chosen from �5, � and �ppm/(degree C). 3. Accurate and repeatable dielectric constant simplifies circuit designing. 4. Resonant frequency can be chosen from 1.6 to 12GHz. www.datasheetarchive.com/files/murata/products/data/a16x/udf001e.txt |
Murata | 11/10/1996 | 0.56 Kb | TXT | udf001e.txt |
| . The high Q value at high frequencies and high self-resonant frequencies make this coil perfect for use in the high frequency circuits of communications equipment. â- FEATURES 1. LQW2BH series covers inductance range from 3.3nH to 470nH. 2. Their high self-resonant frequency characteristic yields a high Q value and highly stable inductance at high frequencies. 3. Low DC resistance design inductance range from 2.7nH to 27nH. â- APPLICATIONS ・high frequency circuit in telecommunication www.datasheetarchive.com/files/murata/products/data/a03x/ec0_0900.txt |
Murata | 09/08/2000 | 1.35 Kb | TXT | ec0_0900.txt |
| circuitry. Q. What is the resonant frequency of the g cell? A. The resonant frequency of the g cell is greater than 10,000 hertz, much greater than the accelerometer bandwidth. Therefore, the resonant frequency of the G-cell does not play a role in the accelerometer response. Q. What is ratiometricity www.datasheetarchive.com/files/motorola/design-n/senseon/faqa.htm |
Motorola | 25/11/1996 | 4.23 Kb | HTM | faqa.htm |
| :Applications Microwave oscillators and Filters etc. for Microwave communications 1. High Q of 15,000 at 4GHz 2. High dielectric constant : er=38 3. Resonant frequency temperature coefficient can be chosen from 0 to 6ppm/(degree C). Tolerance of frequency temperature coefficient can be chosen from �5, �and �pm/(degree C). www.datasheetarchive.com/files/murata/products/data/a16x/mdf001e.txt |
Murata | 11/10/1996 | 0.34 Kb | TXT | mdf001e.txt |
| Enter the resonance capacitor value (rounded from E12) division factor dC [-] Antenna resonant frequency f0 [Hz] Final antenna resonant frequency From P4095 P4095 P4095 P4095 datasheet: max. antenna supply current IDDon [A P4095 P4095 P4095 P4095 calculation spreadsheet &L&9http://www.emmarin.com&C&9Copyright 2000 (c) by EM Microelectronic-Marin SA&R&9page &P of &N Description Abbr. Unity Inputs Results 1 Results 2 Results 3 P4095 P4095 P4095 P4095 transceiver: frequency of operation f0 [Hz] 125000.0 Enter the driving frequency of the reader power supply www.datasheetarchive.com/download/58336157-94813ZC/eman4095v1.xls |
EM Microelectronics | 25/09/2000 | 192.5 Kb | XLS | eman4095v1.xls |
| Enter the resonance capacitor value (rounded from E12) division factor dC [-] Antenna resonant frequency f0 [Hz] Final antenna resonant frequency From P4095 P4095 P4095 P4095 datasheet: max. antenna supply current IDDon [A P4095 P4095 P4095 P4095 calculation spreadsheet &L&9http://www.emmarin.com&C&9Copyright 2000 (c) by EM Microelectronic-Marin SA&R&9page &P of &N Description Abbr. Unity Inputs Results 1 Results 2 Results 3 P4095 P4095 P4095 P4095 transceiver: frequency of operation f0 [Hz] 125000.0 Enter the driving frequency of the reader power supply www.datasheetarchive.com/download/43434942-95406ZC/eman4095v1.xls |
EM Microelectronics | 25/09/2000 | 192.5 Kb | XLS | eman4095v1.xls |
| . Typically, the Self Resonant Frequency (SRF) of the component model will be higher than the measurement of fixture will effectively lower the circuit resonant frequency, especially for very small inductance values frequency-dependent behavior of the component up to a frequency just above the self-resonant frequency of the model. The valid frequency range for each part is specified in Table 1 below. Table 1 Valid Frequency Range of S-parameters Part Number#7;Range (MHz)#7;#7;Part Number#7;Range (MHz)#7;#7;1008HQ-3N0 1008HQ-3N0 1008HQ-3N0 1008HQ-3N0 www.datasheetarchive.com/download/97143167-69293ZC/readme_1008hq.doc |
Coilcraft | 16/07/2002 | 38 Kb | DOC | readme_1008hq.doc |
| . Typically, the Self Resonant Frequency (SRF) of the component model will be higher than the measurement of fixture will effectively lower the circuit resonant frequency, especially for very small inductance values frequency-dependent behavior of the component up to a frequency just above the self-resonant frequency of the model. The valid frequency range for each part is specified in Table 1 below. Table 1 Valid Frequency Range of S-parameters Part Number#7;Range (MHz)#7;#7;Part Number#7;Range (MHz)#7;#7;Part Number www.datasheetarchive.com/download/23295665-68876ZC/readme_0403hq.doc |
Coilcraft | 18/02/2004 | 33.5 Kb | DOC | readme_0403hq.doc |
| Self Resonant Frequency (SRF) of the component model will be higher than the measurement of the effectively lower the circuit resonant frequency, especially for very small inductance values. Since data represents as closely as possible the typical frequency-dependent behavior of the component up to a frequency just above the self-resonant frequency of the model. The valid frequency range for each part is specified in Table 1 below. Table 1 Valid Frequency Range of S-parameters Part Number www.datasheetarchive.com/download/68928921-69066ZC/readme_0604hq.doc |
Coilcraft | 15/08/2002 | 30.5 Kb | DOC | readme_0604hq.doc |
| . Typically, the Self Resonant Frequency (SRF) of the component model will be higher than the measurement of fixture will effectively lower the circuit resonant frequency, especially for very small inductance values typical frequency-dependent behavior of the component up to a frequency just above the self-resonant frequency of the model. The valid frequency range for each part is specified in Table 1 below. Table 1 Valid Frequency Range of S-parameters Part Number#7;Range (MHz)#7;#7;Part Number#7;Range (MHz www.datasheetarchive.com/download/83708685-69457ZC/readme_1812cs.doc |
Coilcraft | 31/07/2002 | 37 Kb | DOC | readme_1812cs.doc |