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RV5C387A Datasheet(PDF) 34 Page - RICOH electronics devices division |
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RV5C387A Datasheet(HTML) 34 Page - RICOH electronics devices division |
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34 / 49 page  RV5C387A 34 2.4 Oscillation Adjustment Circuit The oscillation adjustment circuit can be used to correct a time count gain or loss with high precision by varying the number of 1-second clock pulses once per 20 seconds. When such oscillation adjustment is not to be made, the oscillation adjustment circuit can be disabled by writing the settings of “*, 0, 0, 0, 0, 0, *” (“*” representing “0” or “1”) to the F6, F5, F4, F3, F2, F1, and F0 bits in the oscillation adjustment circuit. Conversely, when such oscillation adjustment is to be made, an appropriate oscillation adjustment value can be calculated by the equation below for writing to the oscillation adjustment circuit. 2.4-1 When Oscillation Frequency * 1 is Higher than Target Frequency *2 (There is a Time Count Gain) Oscillation adjustment value* 3 = (Oscillation frequency – Target frequency + 0.1) Oscillation frequency × 3.051 × 10–6 = (Oscillation frequency – Target frequency) × 10 + 1 *1) Oscillation frequency: Frequency of clock pulses output from the 32KOUT pin at normal temperature in the manner described in “2.2 Measurement of Oscillation Frequency”. *2) Target frequency: Desired frequency to be set. Generally, a 32.768-kHz crystal oscillator has such temperature characteristics as to have the highest oscillation frequency at normal temperature. Consequently, the crystal oscillator is recommended to have target frequency settings on the order of 32.768 to 32.76810kHz (+3.05ppm relative to 32.768kHz). Note that the target frequency differs depending on the environment or location where the equipment incorporating the real-time clocks is expected to be operated. *3) Oscillation adjustment value: Value that is to be finally written to the F0 to F6 bits in the oscillation adjustment register and is represented in 7-bit coded decimal notation. *1) The CGOUT should have a capacitance ranging from 0 to 15pF. Course (D) It is necessary to select the crystal oscillator in the same manner as in Course (C) as well as correct errors in the time count of each real-time clock in the same manner as in Course (B) by the method described in “2.4 Oscillation Adjustment Circuit”. RV5C387A RF RD CD CG OSCIN OSCOUT 32kHz VDD 10 9 8 VDD CGOUT*1 Another advisable way to select a crystal oscillator having an optimum CL value is to contact the manufacturer of the crystal oscillator intended for use with the RV5C387A. Incidentally, the high oscillation frequency of the crystal oscillator can also be adjusted by adding an external oscillation stabilization capacitor CGOUT as illustrated in the diagram below. . |
Similar Part No. - RV5C387A_03 |
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Similar Description - RV5C387A_03 |
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