JPS62197855A - Microcomputer - Google Patents

Abstract

PURPOSE:To attain selection of a group of output terminals which connects external equipments which are needed to be properly separated, by setting an optional one of all output ports at a high impedance by an instruction through an impedance switch means and separating said output port from the external equipment in terms of current. CONSTITUTION:An optional one of buffer gate circuits 131-13n serving as impedance switch means receives an access by an instruction. At the time of an output terminal group 142 of an output port 122, for example, is set at a high potential like a case where a data RAM 8 receives an access via data buses 9 and 10, the circuit 132 is switched to an high impedance state from a normal output state by receiving a high impedance control signal 152 among plural instructions. Thus the external equipment connected to the group 142 is separated from a microcomputer 7 in terms of current. Then the high impedance state is released by disabling the signal 152 by the instruction.

Description

DETAILED DESCRIPTION OF THE INVENTION The field of industrial application is a microcomputer with built-in 1tOM (memory).

Conventional technology In the conventional micro combi coater, the output port is
Although it is possible to enter the impedance state, the output capo-I is fixed in one place for the most part. As shown in the main block diagram of FIG. 2, a gate circuit 4 is provided between the output ports 21, 22, . It is set to data "1n" or data "0" by an output command, or set to a high impedance state by a high impedance command, and is output to the output terminal group 31. 5 is a data bus 61, 62... 61 is a data bus that connects data bus 5 and each output port 21, 22... 2n, 32... 31 is each output port 2
This is a group of output terminals connected to 2...2n.

The problem that Bohmei was trying to solve: In conventional microcomputers, most of the output ports that go into a high impedance state are fixed in one place. If it is necessary to separate the output terminals 81 (indicated by 11L) from the output terminals 3t, 32...3o,
This is something that must be connected to the device, and the design of the device is small.

The present invention is 5) lil! It is assumed that external equipment that needs to be connected can be connected to any of the output terminal groups, so that a microcomputer can be provided.

Means for Solving the Problems The microcomputer of the present invention is provided with impedance switching means for setting the circuit impedance from the output terminal group side of the microcomputer to a high impedance at each output port of the microcomputer. 1J is characterized in that a command is given to a specific impedance switch 8 means to switch a predetermined output port between a normal output state and a high impedance output state.

According to this method, the impedance can be made high by applying a high impedance n11uo signal to the one provided at a predetermined output port among the eight impedance cut means, and the external device can be controlled. Any port among the output ports can be placed in a high impedance state and electrically disconnected.

Example FIG. 1 does not show an embodiment of the present invention.

In FIG. 1, 7 is a microcomputer, 8 is a data RAM, 9 is a data bus, 10 and 111°112.
...11n is a data bus, 121, 122...12
n is an output port, 131, 132...13n are output ports 121 to 12n and each output terminal group 14. , 142
... 14n, each buffer gate circuit 131 to 13n is activated by a command, and the data RAM 8 is For example, output terminal group 1 of output port 122 is accessed via data bus 9 and data bus 10.
42 to high impedance, the high impedance R-J of the instructions! II (By applying No. A 152, the buffer gate circuit 132 switches from the normal output state to the high impedance state, and the output terminal group 142
External equipment connected to the microcomputer 7 is electrically disconnected from the microcomputer 7. Note that to release the high impedance state, the high impedance control signal P4is is activated by a command.
2 can be disabled.

In the above embodiment, only the high impedance control signal 152 was applied to switch to the high impedance state, but each buffer gate 13. , 132...13n. 152...1
By applying arbitrary plurality of signals among 5n, it is possible to simultaneously cut off and filt a plurality of external n devices connected to the output terminal group from the micro combi coater.

Effects of light As described above, the microcomputer of the present invention has an impedance switching means J, which changes any port from the output port in the pan to 1 ('S impedance) and changes the current to the external device. Therefore, the user can arbitrarily select the output terminal group to connect external devices that need to be disconnected at an appropriate T'r. The free 1σ is larger than that of the previous model.

[Brief explanation of drawings]

FIG. 1 is a block diagram of the main parts of an embodiment of Suikomei's microcomputer, and FIG. 2 is a block diagram of the main parts of a conventional microcomputer. 7...Microcomputer, 9...Data bus,
111112...11. ...data bus, 12.1
22...12. ...Output port, 131132...
・13n...Buffer gate (impedance switching means), 14.142...14. ...Output terminal group, 15.152...15. ...High impedance f
f1lJ ill signal agent Yoshihiro Moriki No. 1 Figure 7---74 FuO compy! Ta - T-7 Nomas ///, //J...11g---Chi7ha1slko,
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Claims (1)

[Claims] 1. Each output port of the microcomputer is provided with impedance switching means for changing the circuit impedance from the output terminal group side of the microcomputer to a high impedance, and a command is given to a specific impedance switching means of each impedance switching means to set a predetermined value. A microcomputer whose output port can be switched between a normal output state and a high impedance output state.