BU3072HFV-TR Rohm Semiconductor, BU3072HFV-TR Datasheet
BU3072HFV-TR
Specifications of BU3072HFV-TR
Related parts for BU3072HFV-TR
BU3072HFV-TR Summary of contents
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... High-performance Clock Generator Series Compact 1ch Clock Generators for Digital Cameras BU3071HFV, BU3072HFV, BU3073HFV, BU3076HFV BU7322HFV, BU7325HFV ●Description These Clock Generators incorporates compact package compared to oscillators, which provides the generation of high-frequency CCD, USB, VIDEO clocks necessary for digital still cameras and digital video cameras. ...
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... Note) The output frequency is determined by the arithmetic (frequency division) expression of a frequency input to IN.If the input frequency is set to 28.6363MHz, the output frequency will be as listed above. BU3072HFV(Ta=25℃, VDD=3.3V, Crystal frequency=48.0000MHz, unless otherwise specified.) Parameter Symbol Output H voltage ...
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BU3073HFV(Ta=25℃, VDD=3.3V, Crystal frequency=48.0000MHz, unless otherwise specified.) Parameter Symbol Output H voltage VOH Output L voltage VOL Consumption current 1 IDD1 Consumption current 2 IDD2 Output frequency CLK_375 CLK_545 The following parameters represent design guaranteed performance. Duty Duty Period-Jitter 1σ ...
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... Output Lock time Note) The output frequency is determined by the arithmetic (frequency division) expression of a frequency input to IN. If the input frequency is set to 27.0000MHz, the output frequency will be as listed above. Common to BU3071HFV, BU3072HFV, BU3073HFV, BU3076HFV, BU7322HFV, BU7325HFV ∗1 Period-Jitter 1σ This parameter represents standard deviation (=1σ) on cycle distribution data at the time when the output clock cycles are sampled 1000 times consecutively with the TDS7104 Digital Phosphor Oscilloscope of Tektronix Japan, Ltd. ∗ ...
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... Fig.1 54MHz output waveform (VDD=3.3V,CL=15pF,Ta=25℃) ●Reference data (BU3072HFV basic data) 10nsec/div Fig.4 27MHz output waveform (VDD=3.3V,CL=15pF,Ta=25℃) 5nsec/div Fig.7 36MHz output waveform (VDD=3.3V,CL=15pF,Ta=25℃) 500psec/div Fig.2 54MHz Period-Jitter (VDD=3.3V,CL=15pF,Ta=25℃) 500psec/div Fig.5 27MHz Period-Jitter (VDD=3.3V,CL=15pF,Ta=25℃ ...
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Fig.10 24.375MHz output waveform (VDD=3.3V,CL=15pF,Ta=25℃) 10nsec/div Fig.13 24.5454MHz output waveform (VDD=3.3V,CL=15pF,Ta=25℃) ●Reference data (BU3076HFV basic data) 5nsec/div Fig.16 54MHz output waveform (VDD=3.3V,CL=15pF,Ta=25℃) 2nsec/div Fig.19 67.5MHz output waveform (VDD=3.3V,CL=15pF,Ta=25℃) 500psec/div Fig.11 24.375MHz Period-Jitter (VDD=3.3V,CL=15pF,Ta=25℃) 500psec/div ...
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Fig.22 49.5MHz output waveform (VDD=3.3V,CL=15pF,Ta=25℃) 10nsec/div Fig.25 36MHz output waveform (VDD=3.3V,CL=15pF,Ta=25℃) ●Reference data (BU7325HFV basic data) 5nsec/div Fig.28 48MHz output waveform (VDD=3.3V,CL=15pF,Ta=25℃) 10nsec/div Fig.31 78MHz output waveform (VDD=3.3V,CL=15pF,Ta=25℃) 500psec/div Fig.23 49.5MHz Period-Jitter (VDD=3.3V,CL=15pF,Ta=25℃) 500psec/div ...
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Temperature and Supply voltage variations data VDD=3.7V VDD=3. VDD=2. - 100 temperature:T[ ℃ ] Fig.34 54MHz Duty temperature characteristics 100 80 60 ...
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... Temperature and Supply voltage variations data VDD=3. VDD=2.9V VDD=3. - 100 temperature:T [℃] Fig.39 27MHz Duty temperature characteristics 100 VDD=3. VDD=2.9V VDD=3. 100 temperature:T [ ℃ ] Fig.42 27MHz Period-Jitter 1σ temperature characteristics VDD=3. VDD=2.9V 48 VDD=3. - 100 temperature:T [ ℃ ] Fig.44 36MHz ...
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Temperature and Supply voltage variations data VDD=3. VDD=3.3V 47 VDD=2. - 100 temperature:T [ ℃ ] Fig.49 24.375MHz Duty temperature characteristics 100 90 ...
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Temperature and Supply voltage variations data VDD=3. VDD=3.3V VDD=2. - 100 temperature:T [ ℃ ] Fig.59 54MHz Duty temperature characteristics 100 90 ...
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Temperature and Supply voltage variations data VDD=3. VDD=3.3V 47 VDD=2.75V temperature:T [ ℃ ] Fig.69 49.5MHz Duty temperature characteristics 100 90 80 ...
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Temperature and Supply voltage variations data VDD=3. VDD=3.3V 47 VDD=2.75V temperature:T [ ℃ ] Fig.79 48MHz Duty temperature characteristics 100 90 80 ...
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... OE Output enable (L: disable, H: enable), equipped with Pull-down function, output fixed disable 5 TEST TEST pin, equipped with Pull-down function 6 IN Clock input pin (28.6363 MHz input) (BU3072HFV) 1:VDD 6:IN 2:VSS 5:SEL 3:OUT 4:PD Fig.91 PIN NO. ...
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SEL 3:OUT 4 : OE Fig.95 PIN NO. PIN name 1 VDD Power supply 2 VSS GND 3 OUT Clock output terminal (L:54.0000MHz, H:67.5000MHz Power-down (L: disable, H: enable), equipped with Pull-down ...
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... For VDD and VSS, insert a bypass capacitor of approx. 0.1 µF as close as possible to the pin. ∗ Bypass capacitors with good high-frequency characteristics are recommended. ∗ Even though we believe that the typical application circuit is worth of a recommendation, please be sure to thoroughly recheck the characteristics before use. (BU3072HFV) 28.6363MHz H:enable H:36.0000MHz L:27 ...
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... Fig.112 BU3072HFV、BU3073HFV、BU3076HFV BU7322HFV、BU7325HFV From the inside the inside the inside the inside of IC 17/20 From the inside of IC PD=L ; Hi-Z ; enable Fig.108 BU3072HFV To the inside of IC Fig.111 BU3071HFV From the inside the inside of IC Fig.113 BU3071HFV ...
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... Marker (Dimension including burr: Max. 1.8) 1.6±0.1 ○ ○ 0.5 ・List of markers Model name BU3071HFV BU3072HFV BU3073HFV BU3076HFV BU7322HFV BU7325HFV Marker (1.2) (1.4) LOT No. 0.22±0.05 Fig.114 Marker 18/20 0.145±0.05 (UNIT:mm) ...
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Absolute Maximum Ratings An excess in the absolute maximum ratings, such as applied voltage (VDD or VIN), operating temperature range (Topr), etc., can break down devices, thus making impossible to identify breaking mode such as a ...
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Designation Part No. Type 3071 3072 3073 3076 7322 7325 HVSOF6 <Dimension> (MAX 1.8 include BURR) 1.6 ± 0 (1.2) (1. 0.1 S 0.22±0.05 0 ...
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Appendix No technical content pages of this document may be reproduced in any form or transmitted by any means without prior permission of ROHM CO.,LTD. The contents described herein are subject to change without notice. The specifications for the product ...