JPS59191632A - Microcomputer - Google Patents

Abstract

PURPOSE:To decrease the power consumption in a stand-by mode by using a single oscillator to control the time constant of an oscillating circuit and therefore changing the oscillation frequency. CONSTITUTION:The oscillation frequency can be changed by varying the value of a feedback resistance covering from an output terminal 6 through an input terminal 5 of an inverter 1. For instance, an instruction is given to a control terminal P1 or the voltage is supplied to the terminal P1 by external terminal control. Thus a transistor TRT1 is turned on and the value of a feedback resistance is set at R. Otherwise the voltage is supplied to a control terminal P2 to turn on both TRT2 and T3 at a time, and the value of the feedback resistance is set at R+R1. While the voltage is supplied to a control terminal P3 to turn on both TRT4 and T5 at a time, and the value of the feedback resistance is set at R+R2. In such a way, the power consumption can be reduced in a stand-by mode. The same effect is obtained by changing the value of a capacitor C and then varying the oscillation frequency.

Description

DETAILED DESCRIPTION OF THE INVENTION Technical Field of the Invention The present invention relates to a microcomputer, and particularly to a microcomputer capable of reducing power consumption.

(To) Technical Background and Problems In general, microcomputers operate in two ways: dynamic mode, in which all of their circuits operate dynamically, and standby mode, in which only some of their circuits operate. In order to reduce power consumption in such a micro 9 beater, it is effective to reduce power consumption during standby mode in 4G. This is because, especially in the case of a converter configured with a 0M08 circuit, the power consumption in the CM08 circuit is proportional to the frequency. Also.

This is because in the standby mode, the two oscillation circuits are operating while all the circuits are not dynamically operating, so the power consumption in the one oscillation circuit itself cannot be ignored in many cases.

In such a case, it is possible to adjust the frequency by providing multiple oscillation circuits in the microcomputer.

It is hard to say that this is a good idea in terms of power consumption9 price or effective use of chip terminals.

(Q. Purpose and Structure of the Invention The purpose of the present invention is to solve the above problems by using one oscillation circuit and adjusting the time constant of this oscillation circuit to change the oscillation frequency of the oscillation circuit. Therefore, the present invention includes an oscillation circuit and a time constant switching circuit for switching the time constant in the oscillation circuit.

The present invention is characterized in that the time constant can be switched by an internal command or an external control signal.

■ Examples of the invention The present invention will be explained below based on the drawings.

FIG. 1 and FIG. 2 are diagrams for explaining the present invention in detail. Figure 1 shows the case where the 9 oscillation circuit is a CR oscillation circuit, and an inverter 1 with hysteresis is provided in a microcomputer chip 2, and a capacitor C and a feedback resistor R are connected to this inverter through terminals 3 and 4 of the chip. is attached externally. FIG. 2 shows the relationship between the oscillation frequency f of this CR oscillation circuit, the value of the capacitor C, and the value of the resistor hole. The value of the resistance hole is taken as a parameter.

The vertical axis shows the frequency, and the horizontal axis shows the capacitor value.

According to this, when the value of the resistor R is increased, the oscillation frequency f
If the value of the capacitor C is increased, the frequency f tends to decrease. Therefore, by changing the value of the capacitor C or the value of the feedback resistor R, the oscillation frequency of the oscillation circuit can be changed.

FIG. 3 shows an embodiment of the microcomputer of the present invention in which the value of the feedback resistor is changed. Similar to the oscillation circuit shown in FIG. 1, an inverter 1 with hysteresis is provided in a chip 2, chip terminals 3 and 4 are provided at the input terminal 5 and output terminal 6 of this inverter, respectively, and a capacitor C and a resistor R are provided. Attach externally. A KMO8 transistor T1 is provided between the output terminal 6 and the terminal 4 of the inverter, and its gate electrode is connected to the adjustment terminal P1. A series circuit consisting of two MOS transistors T2 and T3 and a resistor R1 is provided in parallel with this transistor TIVC, and the gate electrodes of the transistors T2 and T3 are connected to the adjustment terminal P2.
Connect to. In addition, two MOs are connected in parallel to this series circuit.
S) Provide a series circuit consisting of transistors T4 and T5 and resistor R2.

The gate electrodes of transistors T4 and T5 are both connected to adjustment terminal P3.

In the frequency oscillation circuit configured as above.

By changing the value of the feedback resistor from the output terminal 6 to the input terminal 5 of the inverter 1, the value of the oscillation frequency can be changed. For example, a voltage is supplied to the adjustment terminal PIK command or external control to turn on the transistor T1 and set the value of the feedback resistor to R, or a voltage is supplied to the adjustment terminal P2 to simultaneously turn on the transistors T2 and T3, and the feedback resistance is The value of the feedback resistor can be set to R+11.1, or the value of the feedback resistor can be set to R+R2 by supplying a voltage to the adjustment terminal P3 to turn on transistors T4 and T5 simultaneously.

Therefore, in the standby mode, by increasing the value of the feedback resistor as necessary, it is possible to reduce the power consumption of the combinator, particularly the CMO8 circuit section.

In the embodiment described above, changing the value of the feedback resistor k
Therefore, I changed the oscillation frequency of the oscillation circuit.

It is also possible to vary the value of capacitor C.

In this case, if the capacitor is formed within the chip, the occupied area will be larger than if the resistor is formed within the chip. Therefore, it can be said that in the CRJ oscillation circuit, it is easier to change the value of the feedback resistor hole.

It goes without saying that the present invention can be applied not only to CB oscillation circuits but also to oscillation circuits whose oscillation frequency can be changed by changing the time constant.

(2) Effects of the invention As is clear from the above, 9 ee** of the present invention
According to the ****e**e microcomputer, it is possible to significantly reduce power consumption, especially in standby mode.

[Brief explanation of drawings]

1 and 2 are diagrams for explaining the present invention in detail, and FIG. 3 is a diagram showing an embodiment of the continuous photographing circuit of the present invention. In the figure, 1 is an inverter, 2 is a chip, 3 and 4 are terminals of the chip, and 5 is an input terminal of the inverter. 6 is the output terminal of the inverter, J R1, R2 are resistors, C
is a capacitor, and Tl to T5 are transistors. Pi, P2. P3 each indicates an adjustment terminal. Patent Applicant: Fujitsu Ltd. Representative Patent Attorney Mori 1) Hiroshi (1 other person) Figure 1 Figure 2

Claims (1)

[Claims] 1. A microcomputer comprising an oscillation circuit and a time constant switching circuit for switching a time constant in the oscillation circuit, the time constant being able to be switched by an internal command or an external control signal.