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HD64F2357F20V Datasheet, PDF (708/1049 Pages) Renesas Technology Corp – Hardware Manual Renesas 16-Bit Single-chip Microcomputer H8S Family / H8S/2300 Series
21.7 Hardware Standby Mode
21.7.1 Hardware Standby Mode
When the STBY pin is driven low, a transition is made to hardware standby mode from any mode.
In hardware standby mode, all functions enter the reset state and stop operation, resulting in a significant reduction in
power dissipation. As long as the prescribed voltage is supplied, on-chip RAM data is retained. I/O ports are set to the
high-impedance state.
In order to retain on-chip RAM data, the RAME bit in SYSCR should be cleared to 0 before driving the STBY pin low.
Do not change the state of the mode pins (MD2 to MD0) while the H8S/2357 Group is in hardware standby mode.
Hardware standby mode is cleared by means of the STBY pin and the RES pin. When the STBY pin is driven high while
the RES pin is low, the reset state is set and clock oscillation is started. Ensure that the RES pin is held low until the clock
oscillator stabilizes (at least 8 ms—the oscillation stabilization time—when using a crystal oscillator). When the RES pin
is subsequently driven high, a transition is made to the program execution state via the reset exception handling state.
21.7.2 Hardware Standby Mode Timing
Figure 21-3 shows an example of hardware standby mode timing.
When the STBY pin is driven low after the RES pin has been driven low, a transition is made to hardware standby mode.
Hardware standby mode is cleared by driving the STBY pin high, waiting for the oscillation stabilization time, then
changing the RES pin from low to high.
Oscillator
RES
STBY
Oscillation
stabilization
time
Reset
exception
handling
Figure 21-3 Hardware Standby Mode Timing (Example)
Rev.6.00 Oct.28.2004 page 678 of 1016
REJ09B0138-0600H