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DS17485 Datasheet(PDF) 6 Page - Dallas Semiconductor |
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DS17485 Datasheet(HTML) 6 Page - Dallas Semiconductor |
6 / 38 page DS17485/DS17487 6 of 38 DS17485 ONLY X1, X2 – Connections for a standard 32.768kHz quartz crystal. For greatest accuracy, the DS17485 must be used with a crystal that has a specified load capacitance of either 6pF or 12.5pF. The crystal select (CS) bit in extended-control register 4B is used to select operation with a 6pF or 12.5pF crystal. The crystal is attached directly to the X1 and X2 pins. There is no need for external capacitors or resistors. Note: X1 and X2 are very high-impedance nodes. It is recommended that they and the crystal be guard- ringed with ground and that high frequency signals be kept away from the crystal area. For more information about crystal selection and crystal layout considerations, refer to Application Note 58, “Crystal Considerations with Dallas Real-Time Clocks.” The DS17485 can also be driven by an external 32.768kHz oscillator. In this configuration, the X1 pin is connected to the external oscillator signal and the X2 pin is floated. VBAT – Battery input for any standard 3V lithium cell or other energy source. Battery voltage must be held between 2.5V and 3.7V for proper operation. UL recognized to ensure against reverse charging current when used in conjunction with a lithium battery. See “Conditions of Acceptability” at www.maxim-ic.com/TechSupport/AQ/ntrl.htm. POWER-DOWN/POWER-UP CONSIDERATIONS The RTC function continues to operate and all of the RAM, time, calendar, and alarm memory locations remain nonvolatile regardless of the level of the VCC input. When VCC is applied to the DS17485/DS17487 and reaches a level of greater than VPF (power-fail trip point), the device becomes accessible after tREC, provided that the oscillator is running and the oscillator countdown chain is not in reset (Register A). This time period allows the system to stabilize after power is applied. The DS17485/DS17487 is available in either a 3V or a 5V device. The 5V device is fully accessible and data can be written and read only when VCC is greater than 4.5V. When VCC is below 4.5V, read and writes are inhibited. However, the timekeeping function continues unaffected by the lower input voltage. As VCC falls below the greater of VBAT and VBAUX, the RAM and timekeeper are switched over to a lithium battery connected either to the VBAT pin or VBAUX pin. The 3V device is fully accessible and data can be written or read only when VCC is greater than 2.7V. When VCC falls below VPF, access to the device is inhibited. If VPF is less than VBAT and VBAUX, the power supply is switched from VCC to the backup supply (the greater of VBAT and VBAUX) when VCC drops below VPF. If VPF is greater than VBAT and VBAUX, the power supply is switched from VCC to the backup supply when VCC drops below the larger of VBAT and VBAUX. When VCC falls below VPF, the chip is write-protected. With the possible exception of the KS , PWR , RCLR , and SQW pins, all inputs are ignored and all outputs are in a high-impedance state. |
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