CS217530B1 - Wiring to simultaneously connect two different types of magnetic disk memories to one recording control electronics - Google Patents

Abstract

It relates to the field of electronic digital computers, external memory, control units of magnetic disk memories. The invention relates to circuits which, by being added to the control electronics of the recording, allow to connect to this control electronics of the recording two types of disk memories differing in some functions, for example processing of the signal of the servo stop, some control sequences of the contact. The application of the invention includes one drawing, which schematically shows the connection of the circuits enabling simultaneous connection of two different types of magnetic disk memories to one control electronics.

Description

The invention relates to a circuitry for simultaneously connecting two different types of magnetic disk memories to one recording control electronics.

The previously known recording control electronics solutions allow to connect only the type of magnetic disc memory for which the recording control electronics is designed to the recording control electronics. In this way, for example, it is necessary to connect two different types of mass storage, differing only in some functions, for example by processing the servo track signal, some contact control sequences, to a computer via two different blocks of recording control electronics.

This drawback solves the wiring for simultaneously connecting two different types of magnetic disk storage to one recording control electronics, which is characterized in that the first output up to the sixth output of the control electronics block is connected by the first conductor to the sixth conductor with the first input to the sixth input of the generation block the disk type and the seventh output of the control electronics block is connected by the seventh wire to the third input of the signal generation block and the eighth output of the control electronics block is connected by the eighth wire to the second input of the signal generation block and the ninth output of the control electronics block is the first input of the signal generation block and the first output of the signal generation block are connected by the tenth wire to the first input of the recording control block and the second output of the signal generation block is connected by the eleventh wire to the second input the record control electronics block and the third output of the contact signal generation block are connected by the twelfth wire to the third input of the record control block and the tenth output of the record electronics block is connected by the thirteenth wire to the first input of the phase controlled oscillator block The first output of the phase control oscillator control block is connected to the fifteenth wire to the fifth input of the control electronics block and the second output of the phase control oscillator block is connected to the sixteenth wire with the sixth input of the control electronics block and the first output of the disk type generation block is connected by the seventeenth wire to the fourth input of the block of generation of contact signals and further to the dr the phase input of the phase-controlled oscillator selection block and the first output of the phase-controlled oscillator generator block are connected by the eighteenth wire to the first input of the phase-controlled oscillator block and the third input of the phase-controlled oscillator block the second input of the phase-controlled oscillator generator block.

The main advantage of the wiring according to the invention is that by adding it to the recording control electronics block it is possible to connect two different types of magnetic disk memories simultaneously and thus save one recording electronics, another advantage is that there is no need to limit to one type disk memories. For computers equipped with an integrated block of recording control electronics, different types of disk memories can be connected in this way without having to equip such a computer with a separate control module.

The attached drawing schematically illustrates a set of circuits added to an existing record control electronics block, their connection to the record control electronics block, and their interconnection.

The first output 101 through the sixth output 106 of the control electronics block 1 is connected by the first conductor 001 through the sixth wire 006 to the first input 201 through the sixth input 206 of the disk type 2 generation and the seventh output 107 of the control electronics block 1 is connected by the seventh wire 007 to the third input 303 of signal generation block 2, and output 8 of control signal block 1 is coupled by 8th wire 008 to second input of signal generation block J, and output 9 of signal control block 1 is connected by ninth wire 009 to first input 301 of block J the signal generation generation and the first output 305 of the signal generation block 3 are connected by the tenth conductor 010 to the first input 110 of bio3 in 1 of the recording control electronics and the second output 306 of the block J generation is connected by the eleventh wire 011 to the second input 111 of the block 1 of the recording control electronics and the third output 307 of the 3rd generation sign is connected by the twelfth wire 012 to the third input 112 of the control electronics block 1 and the tenth output 113 of the control electronics block 1 is connected by the thirteenth wire 013 to the first input 401 of the A block of PLO choice and further to the first input 501 of the block 2 of the phase controlled oscillator and the first output 404 of the phase-controlled oscillator block 2 is connected by the fourteenth wire 014 to the fourth input 114 of the control electronics block 1 and the first output 602 of the phase-controlled oscillator block 6 is connected by the fifteenth wire 015 to the fifth input 115 of the control electronics block 1 the output 603 of the phase-controlled oscillator control block 6 is connected by the 16th wire 016 to the sixth input 116 of the recording control block 1 and the first output 203 of the disk type 2 generation is coupled to the 17th wire 017 to the fourth input 304 of the contact generation block J and further Phase-controlled oscillator selection block 402 and Phase-controlled oscillator generator output 502 block 502 is coupled by eighteenth wire 016 to phase-controlled oscillator control block 6 input 6 and third phase-controlled oscillator selection block 4 input 403 and block 604 output third 6, the phase-controlled oscillator control is connected by nineteenth wire 019 to the second input of the phase-controlled oscillator generator block 2.

These circuits perform the following functions. They generate a signal of the type of logically attached magnetic disk memory. This signal is derived from the physical address decoder of the disk drive and from the disk memory type preset circuit. Further, according to the type of logically connected magnetic disk memory, they generate control signals on the first three lines of the output contact line. These signals are derived from the internal signals of the record processing controller in the record control electronics block. Furthermore, from the signal of the servo tracks applied through the control electronics block, the recording of the disk memory of one type generates the synchronization frequency of the phase-controlled oscillator, or pin the frequency generated directly by the disk memory of the other type.

Claims (2)

A circuit for simultaneously connecting two different types of magnetic disk memories to one recording control electronics, characterized in that the first output (101) to the sixth output (106) of the recording control electronics block (1) is connected by the first conductor (004) to the sixth conductor (006). ) with the first input (201) through the sixth input (206) of the disc type block (2) and the seventh output (107) of the record control block (1) is connected by the seventh wire (007) to the third input (303) of the block (3) the generation of the contact signals and the eighth output (108) of the record control block (1) is connected by the eighth conductor (008) to the second input (302) of the contact generation block (3) and the ninth output (109) of the record control block (1) is connected by the ninth wire (009) to the first input (301) of the block (3) of the generation of the contact signals and the first output (305) of the block of generation of contact signals (3) is connected to the first input (110) of the block (1) control elect the second signal generation block (3) is connected by an eleventh wire (011) to the second input (111) of the record control block (1) and the third output (307) of the signal generation block (3) is connected the twelfth wire (012) with the third input (112) of the record control block (1) and the tenth output (113) of the record control block (1) is connected by the thirteenth wire (013) to the first input (401) of the phase selection block (4) the first input (501) of the phase-controlled oscillator generator block (5) and the first output (404) of the phase-controlled oscillator selection block (4) is connected by a fourteenth wire (014) to the fourth input (114) of the control block (1) the recording electronics and the first output (602) of the phase-controlled oscillator control block (6) is connected by the fifteenth wire (015) to the fifth input (115) of the recording control block (1) and the second output (603) of the control block (6) The phase control oscillator is connected by a sixteenth wire (016) to the sixth input (116) of the record control block (1) and the first output (203) of the disk type block (2) is coupled to the seventh wire (017) to the fourth 2.7530 by input (304) of contact generation block (3) and second input (402) of phase controlled oscillator block (4) and the first output (502) of phase controlled oscillator generator block (5) is connected by eighteenth wire (018) ) with a first input (601) of the phase-controlled oscillator control block (6) and a third input (403) of the phase-controlled oscillator control block (4) and a third output (604) of the phase-controlled oscillator control block (6) is connected by a nineteenth wire 019) with a second input (503) of the phase-controlled oscillator generator block (5).