RU2047920C1 - Device for programming read-only memory chips - Google Patents

Abstract

FIELD: automation and computer engineering. SUBSTANCE: device has control signal generator, interface unit, controlled power supply, first and second commutators, five registers, unit of address switches, unit of control switches, unit of programming switches, programmable pulse generator. EFFECT: increased field of application. 2 dwg

Description

 The invention relates to automation and computer technology, in particular to devices for recording binary information in logic matrices, permanent memory chips with ultraviolet erasure, and with fusible jumpers, and can be used when servicing CNC devices.

A device for programming read-only memory devices comprising a control unit (control keyboard), a unit for generating single pulses, a ROM address counter, a decoder (binary code in a seven-segment indicator code), a ROM address indicator, a programming cycle forming unit, program dial indicators, a bit unit polling a program set, a program set block, a programming clock resolution block, a programming pulse generating block, a comparison block, a switching block, an amplifier, panels for ROM, programming result indicator [1]
The disadvantage of this device is a manual set of programs to be programmed, visual control of the programming result at each address.

Closest to the invention is a device for programming permanent memory chips, comprising a driver of control signals, the inputs of the first group of which are the control inputs of the device, the first register, second register, third register, the input of which is connected to the first output of the driver of control signals, the interface unit, the outputs inputs which are the information inputs of the device outputs, address key block, programming key block, control key block, fourth and fifth register , a programmable power supply, a switch, and the outputs of the group of the interface unit are connected to the inputs of the second group of the driver of control signals, the inputs of the register groups, the programmable power supply, the first and second inputs of the programmable power supply, the first and second inputs of the programmable power supply, the first, second, fourth fifth registers are connected to the corresponding outputs of the third register and the second output of the shaper control signals, the third output of which is connected to the input of the block the inputs of the group of which are connected to the outputs of the programming key block and are the information outputs of the device, the address and control outputs of which are the outputs of the address key blocks and control key blocks, the outputs of the programmable power supply are connected to the inputs of the first groups of the address key block, switch, control key block the inputs of the second groups of which are connected respectively to the outputs of the fourth register, the outputs of the first group of the fifth register, the outputs of the second group of the fifth register, the inputs of the third group of the block of address keys are connected to the outputs of the first register, the outputs of the switch are connected to one input of the block of programming keys, the other inputs of which are connected to the outputs of the second register [2]
The disadvantages of this device is the impossibility of bitwise programming, and therefore, programming of ROM chips with fusible jumpers.

 The aim of the invention is to expand the scope of the device by increasing the class of programmable microcircuits.

 This goal is achieved by the fact that the device for programming permanent memory chips containing a driver of control signals, the group inputs of which are the control inputs of the device, the interface unit, the inputs and outputs of which are the information inputs and outputs of the device, a programmable power source, the first switch, five registers , an address key block, a control key block, a programming key block, the first output of the control signal generator being connected to the first program input a controlled power source, the synchronizing inputs of the first, second, third, fourth registers, the second output of the control signal generator is connected to the recording enable input of the fifth register, the third output of the control signal generator is connected to the first input of the interface unit, the outputs of which are connected to the information inputs of the control signal generator and information inputs of the fifth register, the first output of which is connected to the second input of the programmable power supply, the second, third, fourth and The first outputs of the register are connected to the recording permission inputs of the first, second, third and fourth registers, the information inputs of which are connected to the outputs of the interface block, the inputs of the group of the interface block are combined with the outputs of the programming key block and are the information outputs of the device, the outputs of the programmed power supply are connected to the first control the inputs of the block of address keys, the block of programming keys and the control input of the first switch, the information inputs of which are connected to the outputs the first group of the third register, the outputs of the second group of which are connected to the information inputs of the control key block, the outputs of which are the control outputs of the device, the outputs of the first switch are connected to the control inputs of the programming key block, the outputs of the first and second registers are connected to the information inputs of the address key block, the outputs of which are the address outputs of the device, introduced a programmable pulse generator, a second switch and a block of elements And, the outputs of which are connected to information inputs of the block of programmable keys, the first inputs of the block of elements AND are connected to the output of the fourth register, the second inputs of the block of elements And are connected to the outputs of the second switch, the control and information inputs of which are connected respectively to the first and second outputs of the programmable pulse generator, the first and second control inputs of which respectively connected to the first output of the control signal generator and the corresponding sixth output of the fifth register, information inputs are a generator pulses coupled to the outputs of the block coupling.

 These distinctive features are absent in the known [1] [2] technical solutions and are new.

 A comparative analysis of the proposed and well-known technical solutions showed that only the presence of each of the above signs in their totality ensures the achievement of the goal. In the proposed device for programming permanent memory chips, the combination of distinctive and well-known features is also new, because absent in the prototype, which allows us to conclude that there are significant differences.

 Figure 1 presents the functional diagram of the proposed device; figure 2 timing diagrams explaining the operation of the device.

 The programming device comprises an interface unit 1, information inputs outputs 2, inputs 3 of the interface unit, driver 4 of the control signals, inputs 5 of 8 of which are the control inputs of the device, outputs 9 11 of the driver 4 of the control signals, fifth register 12, programmable power supply 13 with outputs 19, first 14, second 15, third 16 and fourth 17 registers, first switch 20, programmable pulse generator 18, second switch 21, block 22 And elements, block 23 address keys, block 24 control keys, block 25 keys prog Ammonia exits 26 28.

 Figure 2 shows: "a" the output of the programmable pulse generator 18; "b" "and" outputs of the second switch 21; "To" exits of the fourth register 17.

 The operation of the device for programming is controlled by a device (not shown) that generates and reads a 16-bit binary code and four pulse control signals. All signals must be synchronized with each other. In particular, a microcomputer can serve as such a control device, with respect to which the operation of the programming device is considered.

 A device for programming works as follows.

 At the initial moment of time, from the control device to the input 8 of the shaper 4 of the control signals, a call to this device is received, and to the input 2 of the information block 1 is a binary address code, the high byte of which contains the sign code of access to this device, and the low byte contains the register selection code , in which further information should be recorded.

 At the next point in time, input 7 of the shaper 4 receives a signal to write the address part of the cycle and the signal from the output 10 of the shaper 4 of the control signals records the low byte to register 12, the outputs of which give write permission signals to one or two registers 14 17, source 13 power supply, programmable generator 18 pulses.

 Then on the bus 2 of the block 1 pairing comes the information to be recorded in the above registers.

 At the next point in time, a signal is supplied to input 5 of the shaper 4 of the control signals, which from the output 9 of the shaper 4 records information in the corresponding registers. This ends one control cycle.

 The contents of the permanent memory chip are controlled in two control cycles. For the first cycle, the address of the controlled word is recorded in the address register 15, and for the second cycle, this word is read. In this case, instead of signal 5, a signal 6 is received at the input of the device, which is fed to input 11 of the shaper 4 and controls the flow of information from inputs 3 to outputs 2 of the interface unit 1.

 Programming a permanent memory chip consists of preliminary control operations, recording information in a memory cell, and subsequent control of the recording results.

 The control operation consists of several cycles. In the first cycle, a code is entered into the register of the programmable power supply 13, according to which a set of highly stable voltages is required at its outputs 19, which are necessary for supplying the memory with a permanent memory chip for monitoring and recording information.

 In the second control cycle, a voltage selection code is entered in register 14, which is subsequently fed to the address inputs.

 In the third control cycle, using the register 15 and block 23 of the address keys, the address of the controlled cell is set.

 In the fourth cycle, using the register 16 and block 24 of the control keys at the outputs 27, the electrical control mode is set.

 In the next control cycle, information is read from the read-only memory chip at the set address. Then, one by one, all addresses of the permanent memory chip are set and information is read at each address.

 The operation of recording information also begins with the sequential setting of the cell address at the terminals 26 and the electrical power mode at the terminals 27 using the corresponding registers and keys, similar to the control operation.

 If, in accordance with the requirements of the programming manual, it is necessary to set the mode on one of the outputs with a delay relative to the other, then the corresponding codes are recorded in register 16 in different control cycles. At the same time, the same register 16 controls the switch 20, which switches the required voltage pair to the inputs of the block 25 programming keys.

 In the next control cycle, a code is entered in the register of the programmed pulse generator 18, which determines the duration of the programming pulses (see signal "a", Fig. 2) at the output of the pulse generator 18, which enters the first input of the second switch 21, from the outputs of which the pulses go to the first the inputs of the block of 22 elements And, sequentially distributed over each output (see signals "b" "and", figure 2) and finally in a certain control cycle from the register 17 receives information (see signal "k", figure 2) the second input of the block of 22 elements And, in accordance and with which the signals from the output of the block of elements 22 And come to the second inputs of the block 25 of the programming keys, opening the programming keys one by one and installing the programming keys one by one and setting the required voltage alternately at the outputs 28. Thus, bitwise (bitwise) information is recorded in the read-only memory chip. In the case of byte recording information, the register of the programmed pulse generator 18 is entered with a zero code, in this case, no pulses are transmitted to the first input of the second switch 21, and a signal is received at the second input of the second switch 21, through which a constant high level is established at all its outputs, allowing passage information from the register 17 through the block of 22 elements And to the second inputs of the block 25 of the programming keys, in accordance with which the required voltage level is set at the outputs 28.

 The recording mode is removed in the sequence determined by the programming manual by writing to the corresponding bits of the registers of the inverse logical level. Thus, a certain code is sequentially entered into the corresponding registers, and programming pulses of any duration and duty cycle and with any time ratio between them can be generated in accordance with the requirements of the programming manual.

 The control of the permanent memory chips after recording information (output control) is carried out similarly to the input control with the difference that the contents of the permanent memory chip are checked at extreme permissible voltages that provide the control mode, for which the corresponding code is preliminarily entered into the register of the power supply 13.

 Using the proposed device in comparison with the prototype allows you to program permanent memory chips with fusible jumpers.

Claims (1)

 A DEVICE FOR PROGRAMMING CHARACTERISTICS OF PERMANENT MEMORY, containing a driver of control signals, the group inputs of which are the control inputs of the device, the interface unit, the inputs and outputs of which are information inputs and outputs of the device, a programmable power supply, the first switch, five registers, the address key block, the key block control block of programming keys, and the first output of the control signal generator is connected to the first input of the programmable power source, synchronization the input inputs of the first, second, third and fourth registers, the second output of the control signal generator is connected to the recording enable input of the fifth register, the third output of the control signal generator is connected to the first input of the interface unit, the outputs of which are connected to the information inputs of the control signal generator and information inputs of the fifth register the first output of which is connected to the second input of the programmable power source, the second, third, fourth and fifth outputs of the fifth register are connected recording permission inputs of the first, second, third and fourth registers, the information inputs of which are connected to the outputs of the interface unit, the inputs of the group of the interface unit are combined with the outputs of the programming key block and are the information outputs of the device, the outputs of the programmable power supply are connected to the first control inputs of the address key block, block of programming keys and the control input of the first switch, the information inputs of which are connected to the outputs of the first group of the third register RA, the outputs of the second group of which are connected to the information inputs of the control key block, the outputs of which are the control outputs of the device, the outputs of the first switch are connected to the control inputs of the programming key block, the outputs of the first and second registers are connected to the information inputs of the address key block, the outputs of which are address outputs device, characterized in that it introduced a programmable pulse generator, a second switch and a block of elements And, the outputs of which are connected to the formation inputs of the block of programmable keys, the first inputs of the block of elements AND are connected to the output of the fourth register, the second inputs of the block of elements And are connected to the outputs of the second switch, the control and information inputs of which are connected respectively to the first and second outputs of the programmable pulse generator, the first and second control inputs of which respectively connected to the first output of the driver of the control signals and the corresponding sixth output of the fifth register, the information inputs of the generator and pulses are connected to the outputs of the interface unit.

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