CS220190B1 - Connection for microcomputer initialization - Google Patents

Abstract

A fixed memory is used to generate the initialization sequence. A single control element is sufficient to perform the initialization. The initialization wire is connected to the microprocessor and the modification circuit. The output of the modification circuit is connected to the driver input of the microcomputer output bus, which is connected to the fixed memory input. The output of the fixed memory is connected to the output bus of the microprocessor. The modification circuit is connected to the microprocessor by a wire for canceling the operation of the modification circuit.

Description

The invention relates to a circuit for initializing a microcomputer. Two methods for initializing a microcomputer are known.

It is both entering the initial sequence of instructions manually from the control panel and secondly generating this sequence automatically from a special, shadow memory. In both methods, when using the control panel or shadow memory, a separate control must be provided to connect them to the microcomputer and at the same time to those devices that might affect initialization. The whole microcomputer needs to be adjusted for such activity.

The purpose of the invention is to overcome these drawbacks. This is accomplished by a microcomputer initialization circuit according to the invention, wherein the initialization conductor is connected to a first microprocessor input and a first modifier circuit output, which is output via an output bus driver, a microcomputer output bus, and a fixed memory containing an initialization sequence. on the microprocessor input bus. A microprocessor is connected to the second input of the modifier circuit to cancel the modification circuit operation, and to the third input of the modifier circuit the output bus of the microprocessor is connected.

The wiring for initializing the microcomputer is simple and requires no further modification of the microcomputer or the circuits connected thereto, except for the insertion of the modification circuit. It uses fixed memory to generate the initialization sequence. A single control is sufficient for initialization.

An example of a wiring according to the invention is further described by means of the drawing, in which Fig. 1 is a general wiring diagram; circuit. In Fig. 1, the initialization conductor 5 is connected to the microprocessor 2 and the modifier circuit 1. The output of the modifier circuit 1 is connected to the input of the exciter 3 of the microcomputer bus 9, which is connected to the fixed memory input 4. 7 microprocessor. Furthermore, the modifying circuit 1 is connected to the microprocessor 2 by a conductor 6 to deactivate the modifying circuit. Figure 2 shows an example of a wiring to initialize a microcomputer for an Intel 8080 microprocessor. This wiring is suitable for uninsulated I / O space and assumes its location in the upper half of the entire address space, which is characterized by the occurrence of logic level H at the highest address. bit. It is further assumed that the I / O device uses code 1 of n on the addressing bus. The non-volatile memory is located at the beginning of the I / O space, i.e. at a location that is not used for code 1 of n.

The modifier circuit 1 in FIG. 2 is connected to the initialization wire 5 by a first inverter 11, the output of which is connected to a flip-flop composed of NAND 12, 13. The output of the second logic 13 is connected to the input of the third logic ¹ of the NAND 15. to whose second input the output of the second inverter 14 is connected, to whose input the output bus 8 of the microprocessor 2 is connected.

Initialization is initiated by applying a level H pulse to the initialization wire 5. The inverter 11 of the modification circuit 1 is connected to the initialization wire 5. The H level at its input creates an L level at its output and thereby the flip-flop from logic members 12, 13 to the state. in which the L-level is output at the output of the logic element 13. After the initialization pulse, the L-level remains at the output of the logic element 13 and simultaneously the microprocessor 2 sends signals to the modification circuit 1 to read the program sequence from zero address. In the modification circuit 1, a logic member 15 provides transmission of the H-level to the conductor corresponding to the highest address bit. This ensures modification of the signals for reading the program sequence from the zero address to the reading from the lowest address in the input and output space, i.e. the space in which the fixed memory 4 is located. This connection assumes that a jump instruction is stored in the fixed memory 4. to a subroutine (CALL) before the return address is written to memory. When the return address is written to the microprocessor 2 memory, it generates a control signal to the conductor 8 which causes the flip-flop to flip from the logic elements 12, 13 back to level L and set the output of the logic element 13 to H. the output of the inverter 14 is connected, the input of which is connected to the highest address bit of the microprocessor 2, at the output of the logic element 15 a level equal to that of this address bit and the modifier circuit 1 is no longer applied.

In a similar manner, the modifier circuit 1 can also be solved for other locations of the beginning of the fixed memory 4. For example, to start at the address with the highest four bits of the H-level address, it is possible to insert the inverter 14 and logic member 15 into those highest four bits.

220138

Claims (1)

SUBJECT A microcomputer initialization circuit, characterized in that the initialization wire [5] is connected to the first input of the microprocessor (2) and the first input of the modifier circuit (1j, the output of which is via the output bus driver (3), the microcomputer output bus (9) and a non-volatile memory (4) comprising an initialization sequence is connected to the input bus (7) of the microprocessor (2), the microprocessor (2) being connected to the second input of the modification circuit (1) by a conductor (6) 1) and the output bus (8) of the microprocessor (2) is connected to the third input of the modification circuit (1j).