CS246246B1 - Dynamic store's information content regeneration control circuit connection - Google Patents

Abstract

The connection relates to the field of electronics and computer technology. The wiring solves the technical control problem recover dynamic collaborative information with a microprocessor. The essence of engagement it consists in recovering the content of the information Dynamic RAM occurs at the time the microprocessor works with ROM and only the signals are used to control the circuit from the processor that are designed for memory management. Wiring can be used in circuits content recovery dynamic management control microprocessor-based memories.

Description

(54) Connection of the dynamic memory information recovery control circuit

The involvement concerns the field of electronics and computer technology.

The connection solves the technical problem of managing the recovery of dynamic memory information cooperating with the microprocessor. The essence of the circuit is that the restoration of the contents of the dynamic RAM information occurs when the microprocessor is cooperating with the ROM and only the processor signals that are intended to control the memory are used to control the circuit.

The connection can be used in circuits of content recovery control of dynamic memory information cooperating with microprocessor.

The invention relates to a circuit for controlling the recovery of content of dynamic memory information cooperating with a microprocessor.

Currently, a number of circuitry is known to address the problem of recovering information content in dynamic memories cooperating with a microprocessor so that the information recovery cycle does not delay the operation of the microprocessor, so that information recovery occurs at the necessary time intervals even when the processor is in a state. waiting. Known connections typically use signals to control the recovery of the content of the information to be decoded from the modified signals of the connected microcomputer. These signals are not routed to memory circuits by default.

The solution according to the invention is based on the fact that the microcomputer memory is divided into a part of ROM and RAM, and the recovery of information in the dynamic RAM can be performed without time requirements at any time when the processor is working with the ROM. The resolution of the portion of memory that the processor is currently communicating with is determined by the state of the address bits. Furthermore, for the present arrangement, each series of reading or writing information into a portion of RAM is followed by a reading from the ROM portion, with a delay between the ROM reading times not greater than the time allowed by the technical conditions of the dynamic memory circuits used to perform one recovery step. information.

The time it is read from the ROM is then used to perform one step of recovering the information in the dynamic RAM. In order to recover information even when the processor is in a wait state and therefore does not read again from the ROM, a time-supervision block is included to ensure that directive recovery steps are inserted.

The circuitry for recovering the content of the dynamic memory information according to the invention consists of a logical product block that processes the information that the ROM (AROM) is addressed and the memory read (MEMR) is in progress. The output of this block is fed together with the output of the time supervision block to the inputs of the logical total block. The output of this block is fed to the generator input, whose output PA is used to switch the address inputs of the dynamic memory to the address of the row containing the restored information content, and the REF output is used to recover the information content at the selected row address and reset the time supervision block.

The circuit of the dynamic memory information recovery control circuit according to the invention shows another suitable circuit arrangement, characterized in that to recover the information in the dynamic memory *.

RAM occurs when the processor is cooperating with the ROM and the circuit uses only those signals from the processor that are designed to control memory.

The circuit of the dynamic memory information recovery control circuit is shown in the drawing.

The circuitry consists of a logic product block 1, whose first input 11 receives information that the ROM (AROM) is addressed and the second input 12 receives information that the memory read (MEMR) is in progress. The output 13 is applied to the first input 31 of the logic sum block 3, its second input 32 being connected to the output 22 of the time supervision block 2. The output 33 of the logical sum block is applied to the input 41 of the generator 4, which generates the signals needed to recover the dynamic memory information. The first output 42 of the generator 4 is used to switch the recovery line counter counter output to the memory addressing inputs and to increment the counter reading after the PA information recovery is complete, the second generator 43 input 43 is used to recover the information at the selected dynamic memory line address (REF). further, it is brought to the input 21 of the time supervision block, where it serves to reset it.

The circuitry of the present invention can be used in dynamic content recovery control circuits of a dynamic memory cooperating with a microprocessor.

Claims (1)

SUBJECT OF THE INVENTION A microprocessor-cooperating recovery of the dynamic memory information content circuit, comprising a logic product block, a timing block, a logical sum block and a generator, characterized in that the first input (11) of the logical product block (1) is for an AROM signal from the decoded processor address bus, the second input (12) thereof is for the MEMR signal from the processor control bus, the output (13) of the logical product block (1) is connected to the first logical sum input (31), the second block input (32) (3) the logical sum is connected to the output (22) of the time supervision block (2), to whose input (21) is connected the output (43) of the generator (4) connected by the input (41) to the output (33) of the block (3) the output (42) of the generator (4) for switching the address bits of the dynamic memory and the other output (43) for recovering the contents of the dynamic memory information.