M306V0ME-107FP MITSUBISHI [Mitsubishi Electric Semiconductor], M306V0ME-107FP Datasheet - Page 44

Manufacturer Part Number

M306V0ME-107FP

Description

SINGLE-CHIP 16-BIT CMOS MICROCOMPUTER with CLOSED CAPTION DECODER and ON-SCREEN DISPLAY CONTROLLER

Manufacturer

MITSUBISHI [Mitsubishi Electric Semiconductor]

Datasheet

1.M306V0ME-107FP.pdf (256 pages)

2.5.8 Power Control

The following is a description of the three available power control modes:

Modes

Power control is available in three modes.

Figure 2.5.7 is the state transition diagram of the above modes.

(1) Normal operation mode

(2) Wait mode

(3) Stop mode

The CPU operation is stopped. The oscillators do not stop.

All oscillators stop. The CPU and all built-in peripheral functions stop. This mode, among the three

modes listed here, is the most effective in decreasing power consumption.

Divide-by-1 frequency of the main clock becomes the BCLK. The CPU operates with the internal

clock selected. Each peripheral function operates according to its assigned clock.

Divide-by-2, divide-by-4, divide-by-8, or divide-by-16 frequency of the main clock becomes the

BCLK. The CPU operates according to the internal clock selected. Each peripheral function operates

according to its assigned clock.

secondary clock. Each peripheral function operates according to its assigned clock.

The main clock operating in low-speed mode is stopped. The CPU operates according to the fc

clock. The fc clock is supplied by the secondary clock. The only peripheral functions that operate are

those with the sub-clock selected as the count source.

High-speed mode

Medium-speed mode

Low-speed mode

Low power consumption mode

becomes the BCLK. The CPU operates according to the fc clock. The fc clock is supplied by the

SINGLE-CHIP 16-BIT CMOS MICROCOMPUTER with CLOSED CAPTION DECODER

and ON-SCREEN DISPLAY CONTROLLER

MITSUBISHI MICROCOMPUTERS

M306V0ME-XXXFP

M306V0EEFP

Rev. 1.0