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Part Manufacturer Description Datasheet BUY
61227-1 TE Connectivity Ltd FASTON 250 RECEPTACLE 14-10 AWG TPBR visit Digikey
81006122A Intersil Corporation DUAL 2-CHANNEL, SGL POLE DOUBLE THROW SWITCH, CQCC20, CERAMIC, LCC-20 visit Intersil
PT6122N Texas Instruments 1A SWITCHING REGULATOR, 600kHz SWITCHING FREQ-MAX, SMA12, SIP-12 visit Texas Instruments
ADS6122IRHBR Texas Instruments 1-CH 12-BIT PROPRIETARY METHOD ADC, PARALLEL ACCESS, PQCC32, 5 X 5 MM, GREEN, PLASTIC, QFN-32 visit Texas Instruments
TLV61220DCKR Texas Instruments Low Input Voltage Step-UP Converter in 6 pin TSOT-23 package 8-SOT-23 -40 to 85 visit Texas Instruments

BW 6122

Catalog Datasheet MFG & Type PDF Document Tags

BW 6122

Abstract: 6122 25.00M 3.3V SURFACE MOUNT 6x3.5mm CRYSTAL CLOCK OSCILLATOR ABSOLUTE MAXIMUM RATINGS , MAXIMUM UNITS 0 Supply Voltage 6122 TABLE 1.0 UNITS - 70 NOTE °C DESCRIPTION MODEL 6122 Frequency Range Frequency Tolerance: 1 OPERATING SPECIFICATIONS TABLE 3.0 , - - 10 mS Jitter (BW=10Hz to 20MHz) - - 5 ps rms Jitter (BW=12kHz to 20MHz) - - 1 NOTE ps rms The Connor-Winfield model 6122 is a 2.5V HCMOS, Surface
Connor-Winfield
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BW 6122

Abstract: cw6122 0107 6122 25.0M 2.5V SURFACE MOUNT 6x3.5mm CRYSTAL CLOCK OSCILLATOR ABSOLUTE MAXIMUM RATINGS , ) NOTE mA 32.0 to 50.0 MHz Supply Current 6122 TABLE 1.0 PARAMETER Storage Temperature , 6122 is a 2.5V HCMOS, Surface Mount, Fixed Frequency Crystal Oscillator (XO) designed for use in all , 10 ms Period Jitter - 3 5 ps RMS Phase Jitter (BW=12kHz to 20MHz) - 0.5 , , lead free. See solder profile on page 2. 0107 6122 25.0M Note: 1) Inclusive of calibration @
Connor-Winfield
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Abstract: 500 6 68 12 IMR 6-12-2 24 IMR 6-12-2 40 IMR 6-12-2 48 IMR 6-12-2 15 400 6 , Output voltage noise Ui nom (0.1) Io nom (BW = 20 MHz) 100 150 100 150 100 150 100 150 , current Ui min.Ui max ±500 uo Output voltage noise Ui nom (0.2.1) Io nom (BW = 20 International Power Devices
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03035

Abstract: BW 6122 6-03-2 24 IMR 6-05-2 24 IMR 6-12-2 24 IMR 6-15-2 24 IMR 6-0505-2 24 IMR 6-1212-2 24 IMR 6-1515-2 40 IMR 6-03-2 40 IMR 6-05-2 40 IMR 6-12-2 40 IMR 6-15-2 40 IMR 6-0505-2 40 IMR 6-1212-2 40 IMR 6-1515-2 Option Ui min.Ui max 9.18 V DC 12 IMR 6-03-2 12 IMR 6-05-2 12 IMR 6-12-2 12 IMR 6-15-2 12 IMR 6-0505-2 , 6-12-2 48 IMR 6-15-2 48 IMR 6-0505-2 48 IMR 6-1212-2 48 IMR 6-1515-2 -7 1 Effiency at Ui nom and Io , nom (BW = 20 MHz) U i min.U i max Io nom U i nom (0.2.1) Io nom U i nom Io nom DUo U DUo I aUo
Power-One
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BW 6122

Abstract: 48 volt Battery charger circuit 6-12-2 24 IMR 6-15-2 24 IMR 6-0505-2 24 IMR 6-1212-2 24 IMR 6-1515-2 40 IMR 6-03-2 40 IMR 6-05-2 40 IMR 6-12-2 40 IMR 6-15-2 40 IMR 6-0505-2 40 IMR 6-1212-2 40 IMR 6-1515-2 Option Ui min.Ui max 9.18 V DC 12 IMR 6-03-2 12 IMR 6-05-2 12 IMR 6-12-2 12 IMR 6-15-2 12 IMR 6-0505-2 12 IMR 6-1212-2 12 IMR 6-1515-2 Ui min.Ui max 36.72 V DC 48 IMR 6-03-2 48 IMR 6-05-2 48 IMR 6-12-2 48 IMR 6-15-2 48 IMR , nom (BW = 20 MHz) U i min.U i max Io nom U i nom (0.2.1) Io nom U i nom Io nom DUo U DUo I aUo
Power-One
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BW 6122

Abstract: melcher dc imr 6-03-2 63 12 IMR 6-05-2 24 IMR 6-05-2 40 IMR 6-05-2 48 IMR 6-05-2 68 12 IMR 6-12-2 24 IMR 6-12-2 40 IMR 6-12-2 48 IMR 6-12-2 15 400 6 68 12 IMR 6-15-2 24 IMR , min.Ui max 1500 1000 500 400 uo Output voltage noise Ui nom (0.1) Io nom (BW = , uo Output voltage noise Ui nom (0.2.1) Io nom (BW = 20 MHz) 100 DUo U Static line
Power-One
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BW 6122

Abstract: min.Ui max 9.18 V DC 12 IMR 6-03-2 12 IMR 6-05-2 12 IMR 6-12-2 12 IMR 6-15-2 12 IMR 6-0505-2 12 IMR , IMR 6-12-2 48 IMR 6-15-2 48 IMR 6-0505-2 48 IMR 6-1212-2 48 IMR 6-1515-2 -7 24 IMR 6-03-2 24 IMR 6-05-2 24 IMR 6-12-2 24 IMR 6-15-2 24 IMR 6-0505-2 24 IMR 6-1212-2 24 IMR 6-1515-2 40 IMR 6-03-2 40 IMR 6-05-2 40 IMR 6-12-2 40 IMR 6-15-2 40 IMR 6-0505-2 40 IMR 6-1212-2 40 IMR 6-1515-2 1 Effiency , nom (BW = 20 MHz) DUo U DUo I aUo Static line regulation Static load regulation Temperature
Power-One
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melcher dc imr

Abstract: BW 6122 .Ï Option 36.72 V DC 48 IMR 6-05-2 48 IMR 6-12-2 48 IMR 6-15-2 48 IMR 6-0505-2 48 IMR 6-1212-2 48 IMR 6-1515-2 -7 9.18 V DC 12 IMR 6-05-2 12 IMR 6-12-2 12 IMR 6-15-2 12 IMR 6-0505-2 12 IMR 6-1212-2 12 IMR 6-1515-2 18.36 V DC 24 IMR 6-05-2 24 IMR 6-12-2 24 IMR 6-15-2 24 IMR 6-0505-2 24 IMR 6-1212-2 24 IMR 6-1515-2 20.60 V DC 40 IMR 6-05-2 40 IMR 6-12-2 40 IMR 6-15-2 40 IMR 6-0505-2 40 IMR , 14.70 U i m in - U i m ax U i nom mVpp (0.2.1) l0 nom (BW = 20 MHz) AU0 u AU0 1 C C \J o
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OCR Scan

Melcher converter s 1000

Abstract: MELCHER THE POWER PARTNERS 6-12-2 48 IMO 6-12-2 24 IMO 6-15-2 48 IMO 6-15-2 24 IMO 6-0505-2 48 IMO 6-0505-2 24 IMO 6-1212-2 48 IMO , U i nom, I o nom U i min.U i max U i nom Io nom (BW = 20 MHz) U i min.U i max Io nom U i nom Io , Nominal output current Output voltage noise U i nom, I o nom U i min.U i max U i nom Io nom (BW = 20
Power-One
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TICOMEL

Abstract: 12-03-2 48 IMO 12-03-2 24 IMO 6-05-2 48 IMO 6-05-2 24 IMO 12-05-2 48 IMO 12-05-2 24 IMO 6-12-2 48 IMO 6-12-2 24 IMO 12-12-2 48 IMO 12-12-2 24 IMO 6-15-2 48 IMO 6-15-2 24 IMO 12-15-2 48 IMO 12-15-2 24 IMO , (BW = 20 MHz) 5.10 11.76 500 12.24 14.70 100 150 DUo U DUo I Static line regulation , i nom, I o nom U i min.U i max U i nom Io nom (BW = 20 MHz) 5.10 11.76 1000 12.24 14.70 , Nominal output current Output voltage noise U i nom, I o nom U i min.U i max U i nom Io nom (BW = 20
Power-One
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Siemens B

Abstract: Ticomel 48 IMO 12-03-2 24 IMO 6-05-2 48 IMO 6-05-2 24 IMO 12-05-2 48 IMO 12-05-2 24 IMO 6-12-2 48 IMO 6-12-2 , (BW = 20 MHz) U i min.U i max Io nom U i nom Io nom.0 Io nom 1/2 U i nom I o nom 5.10 11.76 , i nom, I o nom U i min.U i max U i nom Io nom (BW = 20 MHz) U i min.U i max Io nom U i nom Io , output current Output voltage noise U i nom, I o nom U i min.U i max U i nom Io nom (BW = 20 MHz) U , output current Output voltage noise U i nom, I o nom U i min.U i max U i nom Io nom (BW = 20 MHz) U
Power-One
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melcher am 1000 dc-dc

Abstract: TICOMEL . Resistance: 1000 MQ min. Type . IMR 6-05-2 . IMR 6-12-2 . IMR 6-15-2 . IMR 6-0505-2 . IMR 6-1212-2 , -0.2 , mm-U, ma» Mnom /onorn BW = 2 0 MHz lo - 0 . 2 150 100 150 100 150 mVpp I
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OCR Scan

BW 6122

Abstract: 611C MHz MHz MHz MHz MHz BW ae fN PB typ. value 1,6 2,0 dB fN dB tolerance / limit max. 2,5 611 ± 3 , 611 612.2 frequency in MHz 613.4 614.6 615.8 magnitude in dB 571 581 591 601
VI TELEFILTER
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Melcher family K 1000

Abstract: Melcher M 1000 . Type . IMR 6-05-2 . IMR 6-12-2 . IMR 6-15-2 . IMR 6-0505-2 . IMR 6-1212-2 . IMR 6-1515-2 , current Ui min.Ui max 1000 uo Output voltage noise Ui nom I o = 0.2 Io nom BW = 20 MHz , ±500 uo Output voltage noise Ui nom Io = 0.2 I o nom BW = 20 MHz 100 Uo U Static
Melcher
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TFS611A

Abstract: 40 dB dB dB dB dB dB arel Relative attenuation + + + 5,5 BW Bandwidth fN , in MHz 900 1025 1150 -10 605 1275 606.2 607.4 608.6 609.8 611 612.2
VI TELEFILTER
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C4476

Abstract: resistor 2200 ohm offset, 30 kHz bandwidth, Channel BW = 1.23 MHz. 4. Data reflects performance of a typical AH202 in an , Model 1, +32 DPCH, Pk/Avg Ratio = 8.5 dB at a 0.01% probability, ±5 MHz offset, Integrated Channel BW = , ) 169.30 166.10 156.90 134.90 114.20 93.56 73.94 53.29 34.13 14.15 -8.29 -32.40 -61.22 -94.19 -126.40 , Meas. BW 55 -40 -45 50 -50 ACPR (dBc) OIP3 (dBm) -55 45 -60 -65 40 , . Fwd, ± 885KHz offset, 30 KHz Meas. BW 55 -40 -45 50 -50 OIP3 (dBm) ACPR (dBc) -55
WJ Communications
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C4476 resistor 2200 ohm SMT 160-30 ah202F KT 8195 JESD22-C101 J-STD-020 1-800-WJ1-4401

945 MOTHERBOARD CIRCUIT diagram

Abstract: s3 trio virge .19 6.12.2 GL[4:0] Left Channel Gain Control , "0" : Mute disabled 6.12.2 GL[4:0] Left Channel Gain Control These five bits select the gain applied , 0V; 10 K/50 pF load Fs = 48 KHz, 0 dB = 1 Vrms; BW: 20 Hz ~ 20 KHz, 0 dB attenuation PARAMETERS , BW, Fs = 48 KHz A/D & D/A Frequency Response has ± 0.25 dB limits Stop Band Rejection determines , generated by DAC during normal PCM audio playback over: BW = 28.8 KHz ~ 100 KHz, with respect to 1 Vrms DAC
Winbond Electronics
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W83971D 945 MOTHERBOARD CIRCUIT diagram s3 trio virge virge s3 trio marking ML5 S3 TRIO 3D

w02 8348

Abstract: MF8CCN normalized for center frequency gain HOBP e 1 For different gains simply divide R0 by the desired gain BW The filter's bandwidth BW e fC2 b fC1 SBW The width of the filter's stopband SBW e fS2 b fS1 f0 The , the available clock logic levels f0 BW The ratio of the center frequency to the bandwidth For second-order filters this quantity is also known as ``Q'' SBW BW The ratio of stopband width to bandwidth This , to the required ratio SBW BW The required filter order will be equal to the number of the curve
National Semiconductor
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w02 8348 MF8CCN 09 9767 CMOS 4548 BW 6122 ttl 7484
Abstract: FL Output Ripple & Noise Volt Peak-to-peak 20MHz BW (Measured with a 104pF/50V MLCC) xxS33 , 250mA 65.72 65.05 63.84 63.64 62.60 61.22 59.92 58.58 57.31 55.72 500mA 64.74 66.28 67.21 67.65 67.93 Power Mate Technology
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1000V PDL02 36-75VDC 1000VDC EN60950 UL60950

PHILIPS MULTIMEDIA SPEAKER SYSTEM SP 120

Abstract: sony KSS 121 dB Test Conditions Rl > 32 £2 (external 47 £2 series resistor required) BW =20 Hz.0.5 fs unweighted, Analog Gain = 0 dB, Input = - 2 0 dBFS Rl > 5 k£2, Rdec>612£2 BW etc. as above 16 bit l2S, SEL , : input -4 0 dB below 0-7 Vrms Analog Gain = 0 dB, BW =20 Hz.20 kHz unweighted dGA02 OUTL7R 1.5 , 1 Rl > 32 £2 (external 47 £2 series resistor required) BW = 20 H z.0.5 fs unweighted Analog Gain = -4 0 .5 dB, Input = - 3 dBFS BW = 20 Hz.22 kHz unweighted, no digital input signal, Analog Gain =
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OCR Scan
PHILIPS MULTIMEDIA SPEAKER SYSTEM SP 120 sony KSS 121
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