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ISL73096RHVX Intersil Corporation RF POWER TRANSISTOR visit Intersil
ISL73096RHVF Intersil Corporation RF POWER TRANSISTOR visit Intersil
ISL73128RHVF Intersil Corporation RF POWER TRANSISTOR visit Intersil
ISL73127RHVF Intersil Corporation RF POWER TRANSISTOR visit Intersil
SN74LVC1404DCTR Texas Instruments Oscillator Driver for Crystal Oscillator or Ceramic Resonator 8-SM8 -40 to 125 visit Texas Instruments Buy
SN74LVC1404DCUR Texas Instruments Oscillator Driver for Crystal Oscillator or Ceramic Resonator 8-VSSOP -40 to 125 visit Texas Instruments Buy

resonant frequency

Catalog Datasheet MFG & Type PDF Document Tags

cavity resonator

Abstract: design dielectric resonator oscillator Resonant Frequency GGmmm Example: 08250=8.25 GHz Part Identification Number CF 1 Material Code CF, CG , (SFCR) near its lowest resonant frequency is shown at left. The lowest resonant mode is typically , Cp resonant frequency is set by the parallel combination of Cp and Lp, 0.194pF and the finite , excellent Equivalent Circuit of a 9.95 GHz repeatability providing tight control over resonant frequency , Resonators Resonant Frequency (GHz) 8.20 9.95 12.80 18.65 Temperature Coefficient of Frequency* Typical
Dielectric
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Ningbo East Electronics

Abstract: EMX-11T01PB 8 ¡À 2 Coil Impedance (©) 140 110 40 20 Resonant Frequency (Hz) Operating , Max. Consumption (mA) Resonant Frequency 400 ¡À 100 Hz Operating Temperature -40 ~ +85¡ãC , Voltage (VDC) 3 2~4 4~8 9 ~ 12 9 ~ 15 15 ~ 27 20 Resonant Frequency (Hz) 25 30 , 20 /6VDC 12 /12VDC 14/24VDC Rated voltage Resonant Frequency Operating Temperature , 21/24VDC Rated voltage Resonant Frequency 400 ¡À 100 Hz Operating Temperature -20
Ningbo East Electronics
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EMX-2T01 EMX-11T01PB Ningbo East Electronics BUZZER SFM 27 BUZZER EMX-06 EMX-7T06P SFM 27 EMX-2T01P50 EMX-2T01P42 EMX-2T01P16 EMX-2T01P8 EMX-2T01L50

ABT-402-RC

Abstract: 90dB Piezo Pulse Operating voltage Rated current* Sound output at 10cm* Resonant frequency Tone Operating temperature , Operating voltage Rated current* Sound output at 10cm* Resonant frequency Tone Operating temperature , ~15VDC Rated current* 15mA 20mA 20mA Sound output at 30cm* 95dB 95dB 90dB Resonant frequency , Rated current* Sound output at 30cm* Resonant frequency Tone Operating temperature Storage , output at 30cm* Resonant frequency Tone Operating temperature Storage temperature Weight 12VDC 3
Alan Butcher Components
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ABT-402-RC 90dB Piezo Pulse ABT-414-RC piezo ABT 402 RC kbi 2734 Piezo Element ABT-441-RC 16VDC 20VDC RC/013 3529F UL1095 AWG28
Abstract: : 1 of 4 Specifications Maximum input voltage Resonant frequency Resonant impedance , ) Resonant frequency / Resonant impedance The piezo electric diaphragm should be clamped at a node point (as shown in the following figure) to be free from any mechanical stress. Measure its resonant frequency and resonant impedance by using a vector impedance analyzer or equivalent. When the input frequency is swept within 100 Hz to 3 KHz, the resonant frequency is defined as the frequency where the CUI
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CEB-44D06

CDR11-14

Abstract: AVX A 56 ) 100 Series Resonant Frequency Parallel Resonant Frequency 10 Capacitance (pF) 100 Series Resonant Frequency Parallel Resonant Frequency TYPICAL RESONANT FREQUENCY vs. CAPACITANCE AVX 0603 10 AQ13/14 AQ11/12 AQ13/14 AQ11/12 TYPICAL RESONANT FREQUENCY vs , Microwave MLC's Performance Curves TYPICAL Q vs. FREQUENCY AQ11/12 MIL-PRF-55681E - BG STANDARD - M TYPICAL ESR vs. FREQUENCY AQ11/12 MIL-PRF-55681E - BG STANDARD - M 10000 1 1000
AVX
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CDR11-14 AVX A 56 AQ11-14

1r100

Abstract: Microwave oscillators absorption (%) * f denotes temperature coefficient of resonant frequency !ISO9002 QUALITY RECOGNITION , Characteristics "Resonant Frequency of Temperature Characteristics K Series 100 V Series U.M.Series , resonant frequency temperature coefficient can be chosen from Y4 to 10ppm/D. Tolerance of the frequency , constant simplifies circuit designing. 4. Resonant frequency can be chosen from 1.6 to 12GHz. !PART , Support rCharacteristic Code : The temperature coefficient of the resonant frequency is designated by
muRata
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1r100 Microwave oscillators DRT163U040 38T1 DRT193U040 VCO 5GHz O95E-7 O95E7

"piezo element"

Abstract: KPSG100 Resonant frequency KHz 1.2 ± 0.2 3 Resonant impedance ohm MAX. 3,500 pF 65,000 , resonant frequency is suitable only for piezo element without wire. The resonant resistance is suitable , frequency / Resonant impedance / Piezoelectric diaphragm shall be clamped at a node point as shown in following figure to be free from any mechanical stress, and measured its resonant frequency and resonant , Hz to 4 KHz, the resonant frequency is defined the frequency where the impedance shows minimum value
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KPSG100 30AWG piezoelectric diaphragm ul1571 LF -30awg piezo diaphragm kingstate kpsg100 UL-94 UL1571 25PCS 375PCS
Abstract: 0.7 (in mm) Part Number Resonant Frequency (MHz) Outer Dia. (mm) Thickness (mm , 3.31 (Typical) Part Number: Five blank boxes are filled with resonant frequency codes. Three bland boxes are filled with temperature coefficient of resonant frequency. Please see Part Numbering for details. Standard tolerance of resonant frequency is ±30MHz. Resonant Frequency: Please consult our , . Coefficient, Dielectric Constant and Q â'¢ M series Characteristic Code Resonant Frequency Temperature muRata
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O95E9 DRU048 DRU051 DRU056

DRZ006ZT

Abstract: DRT107-DRT210 ) Resonant Frequency Temperature Characteristics (f) E0 -4ppm/°C D0 wProduct -3ppm/°C Code , Temperature Characteristics (f) Tolerance Code Resonant Frequency Temperature Characteristics (f , (RESOMICSr) Ex.) Code Resonant Frequency Temperature Coefficient (f) wProduct E0 -4ppm/°C , Temperature Coefficient (f) Tolerance Code Resonant Frequency Temperature Coefficient (f) Tolerance Z , 118 108 147 1: f denotes temperature coefficient of resonant frequency. 2: denotes
muRata
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DRZ006ZT DRT107-DRT210 VCO 9GHZ 10GHZ VCO 10GHZ oscillator DRT051-DRT099 dielectric resonator O95E-9

INVERTER TRANSFORMERS design

Abstract: design sine wave power inverter Specifications Test Conditions 53.6 kHz ± 1 kHz 6.1 Resonant Frequency at the max. output (fr , ) (A) Resonant Frequency Input Power: 6.5 W Load Resistance: 95 k 88 % min. 6.3 Efficiency () at the Resonant Frequency 185 nF ± 15 % 6.4 Static Input Capacitance Measuring Frequency : 1 , damage 7.1 *5 time to each perpendicular characteristics: *Resonant Frequency : ±2 % , *Amplitude : 1.5 mm characteristics: *Resonant Frequency : ±2 % directions of x.y and z. *Test
Matsushita Electronic Components
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INVERTER TRANSFORMERS design design sine wave power inverter transformer calculation piezoelectric transformer Ceramic Resistor 5W high frequency step up transformer EFTU16R5M01A 151-EFT-0039

piezo diaphragm

Abstract: CEB-35D26 : 1 of 4 Specifications Maximum input voltage Resonant frequency Resonant impedance , : piezo electric diaphragm Page No: 2 of 4 Measuring Methods 1) Resonant frequency / Resonant , ) to be free from any mechanical stress. Measure its resonant frequency and resonant impedance by , KHz, the resonant frequency is defined as the frequency where the impedance shows minimum value. This , clamped in the same way as the measurement or resonant frequency / resonant impedance mentioned above
CUI
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CEB-35D26 HP4194A H053

INVERTER TRANSFORMERS design

Abstract: piezoelectric transformer Specifications Test Conditions 53.6 kHz ± 1 kHz 6.1 Resonant Frequency at the max. output (fr , ) (A) Resonant Frequency Input Power: 4.0 W Load Resistance: 95 k 88 % min. 6.3 Efficiency () at the Resonant Frequency 145 nF ± 15 % 6.4 Static Input Capacitance Measuring Frequency : 1 , damage 7.1 *5 time to each perpendicular characteristics: *Resonant Frequency : ±2 % , *Amplitude : 1.5 mm characteristics: *Resonant Frequency : ±2 % directions of x.y and z. *Test
Matsushita Electronic Components
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EFTU14R0M03A tip320 ELECTRICAL CALCULATION FOR TRANSFORMER INVERTER TRANSFORMERS rating value of transformer piezoelectric application note 151-EFT-0038

EFTU14R0M02

Abstract: INVERTER TRANSFORMERS design Specifications Test Conditions 53.6 kHz ± 1 kHz 6.1 Resonant Frequency at the max. output (fr , ) (A) Resonant Frequency Input Power: 4.0 W Load Resistance: 95 k 88 % min. 6.3 Efficiency () at the Resonant Frequency 124 nF ± 15 % 6.4 Static Input Capacitance Measuring Frequency : 1 , damage 7.1 *5 time to each perpendicular characteristics: *Resonant Frequency : ±2 % , *Amplitude : 1.5 mm characteristics: *Resonant Frequency : ±2 % directions of x.y and z. *Test
Matsushita Electronic Components
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EFTU14R0M02A EFTU14R0M02 VOLTAGE TRANSFORMER CURRENT transformers high frequency power transformer DC to AC step up transformer 151-EFT-0037

piezo diaphragm

Abstract: CEB-20D64 : 1 of 4 Specifications Maximum input voltage Resonant frequency Resonant impedance , : piezo electric diaphragm Page No: 2 of 4 Measuring Methods 1) Resonant frequency / Resonant , ) to be free from any mechanical stress. Measure its resonant frequency and resonant impedance by , KHz, the resonant frequency is defined as the frequency where the impedance shows minimum value. This , clamped in the same way as the measurement or resonant frequency / resonant impedance mentioned above
CUI
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CEB-20D64
Abstract: : 1 of 4 Specifications Maximum input voltage Resonant frequency Resonant impedance , ) Resonant frequency / Resonant impedance The piezo electric diaphragm should be clamped at a node point (as shown in the following figure) to be free from any mechanical stress. Measure its resonant frequency and resonant impedance by using a vector impedance analyzer or equivalent. When the input frequency is swept within 100 Hz to 5 KHz, the resonant frequency is defined as the frequency where the CUI
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Abstract: : 1 of 4 Specifications Maximum input voltage Resonant frequency Resonant impedance , ) Resonant frequency / Resonant impedance The piezo electric diaphragm should be clamped at a node point (as shown in the following figure) to be free from any mechanical stress. Measure its resonant frequency and resonant impedance by using a vector impedance analyzer or equivalent. When the input frequency is swept within 2 KHz to 8 KHz, the resonant frequency is defined as the frequency where the CUI
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piezo diaphragm

Abstract: CEB-44D06 : 1 of 4 Specifications Maximum input voltage Resonant frequency Resonant impedance , : piezo electric diaphragm Page No: 2 of 4 Measuring Methods 1) Resonant frequency / Resonant , ) to be free from any mechanical stress. Measure its resonant frequency and resonant impedance by , KHz, the resonant frequency is defined as the frequency where the impedance shows minimum value. This , clamped in the same way as the measurement or resonant frequency / resonant impedance mentioned above
CUI
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H023

piezo diaphragm

Abstract: HP4194A No: 1 of 4 Specifications Maximum input voltage Resonant frequency Resonant impedance , of 4 Measuring Methods 1) Resonant frequency / Resonant impedance The piezo electric diaphragm , stress. Measure its resonant frequency and resonant impedance by using a vector impedance analyzer or equivalent. When the input frequency is swept within 100 Hz to 9 KHz, the resonant frequency is defined as the frequency where the impedance shows minimum value. This impedance should be the resonant
CUI
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CEB-20FD64 Fluke 45

piezo diaphragm

Abstract: CEB-27D44 : 1 of 4 Specifications Maximum input voltage Resonant frequency Resonant impedance , : piezo electric diaphragm Page No: 2 of 4 Measuring Methods 1) Resonant frequency / Resonant , ) to be free from any mechanical stress. Measure its resonant frequency and resonant impedance by , KHz, the resonant frequency is defined as the frequency where the impedance shows minimum value. This , clamped in the same way as the measurement or resonant frequency / resonant impedance mentioned above
CUI
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CEB-27D44 HP419

disc Piezoelectric crystal

Abstract: piezoelectric transducer for sound so that the mechanical resonant frequency matches the frequency of the driving signal , automatically at the natural resonant frequency of the element. 1 2 VIBRATION (CERAMIC ONLY) 2 , , L0, C0, and its resonant frequency (fr) is determined as follows: fr - 1 2 L0 C0 Ro , covering a wide frequency range around the resonant frequency. Case Design for Circumference Mounting Method When designing a case for circumference mounting, the cavity resonant frequency of the case (fo
AVX
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MC14069 disc Piezoelectric crystal piezoelectric transducer for sound MC14049 IC piezoelectric pressure transducer Piezo Contact Microphone IC MC14011 MC14011
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