UNIVAC Solid State
Encyclopedia
The UNIVAC Solid State was a 2-address, bi-quinary coded decimal
computer, with memory on a rotating drum
with 5000 signed 10 digit words, spinning at 17,667 RPM in a helium atmosphere. It was announced by Sperry Rand in December 1958, as a response to the IBM 650
. It came in two versions: the Solid State 80 (IBM-style 80 column cards) and the Solid State 90 (Remington-Rand 90 column cards).
With 20 vacuum tube
s, 700 transistor
s, and 3000 FERRACTOR amplifiers in its CPU
, the Solid State was one of the first computers to use solid state
components.
The system used a clock derived from a timing band recorded on the main storage drum. This signal was read and amplified, processed and sent to the driver tubes, a pair of 6146 power pentode output tubes. The output from these 6146 tubes then fed the main clock power amplifier consisting of six 4CX250B metal/ceramic power tetrode tubes running in push-pull/parallel, yielding an output of a kilowatt. The SS80/90 computer could be heard quite clearly in the AM broadcast band at 707kHz and 1414kHz. The 4CX250B Tetrodes used a grounded plate (anode) due to forced aircooling requirements. Interestingly, this tube is still in demand by amateur radio operators. The power supply output was -1.6KV for cathode supply and -800V screen grid supply at 1.8A capacity. The supply weighed nearly 100 pounds and was mounted at the very top of the power supply stack.
The Line Printer
ran at 600 lines per minute, using a continuously rotating print drum technology, with letters, figures and punctuation marks distributed around the drum at each column. A row of solenoid-operated flat-faced print hammers comprised a print line. As a desired character arrived at the printing position, as indicated by timing marks on the end of the drum, a thyratron
would fire and energize a solenoid, impelling its hammer to the back face of the printing paper. The paper would be bounced against a wide inked ribbon and against the drum, printing a character. The hammer would then rebound with a spring to await the next thyraton firing and the process would repeat on the next line down the sheet.
The Read/Punch unit had a maximum output rate of 150 cards per minute. Timing was quite critical throughout the operation of the card punch, the card reader and the printer, all being based on electromechanical principles. The basic card punch mechanism was manufactured by Bull, a French company with license to sell an 80 column punch. The machine came in two versions, the P147 and the P67, a main difference being electromagnetic clutch or a solenoid operated mechanical "dog" clutch to initiate a punch cycle. The machine had a preread station, a punch station and a checkread station. The machine could be quite difficult to maintain and required skill to troubleshoot. It consumed much of the maintenance time. The machine cycle was oddly divided into 420 "points" or "Bull degrees".
Bi-quinary coded decimal
Bi-quinary coded decimal is a numeral encoding scheme used in many abacuses and in some early computers, including the Colossus. The term bi-quinary indicates that the code comprises both a two-state and a five-state component...
computer, with memory on a rotating drum
Drum memory
Drum memory is a magnetic data storage device and was an early form of computer memory widely used in the 1950s and into the 1960s, invented by Gustav Tauschek in 1932 in Austria....
with 5000 signed 10 digit words, spinning at 17,667 RPM in a helium atmosphere. It was announced by Sperry Rand in December 1958, as a response to the IBM 650
IBM 650
The IBM 650 was one of IBM’s early computers, and the world’s first mass-produced computer. It was announced in 1953, and over 2000 systems were produced between the first shipment in 1954 and its final manufacture in 1962...
. It came in two versions: the Solid State 80 (IBM-style 80 column cards) and the Solid State 90 (Remington-Rand 90 column cards).
With 20 vacuum tube
Vacuum tube
In electronics, a vacuum tube, electron tube , or thermionic valve , reduced to simply "tube" or "valve" in everyday parlance, is a device that relies on the flow of electric current through a vacuum...
s, 700 transistor
Transistor
A transistor is a semiconductor device used to amplify and switch electronic signals and power. It is composed of a semiconductor material with at least three terminals for connection to an external circuit. A voltage or current applied to one pair of the transistor's terminals changes the current...
s, and 3000 FERRACTOR amplifiers in its CPU
Central processing unit
The central processing unit is the portion of a computer system that carries out the instructions of a computer program, to perform the basic arithmetical, logical, and input/output operations of the system. The CPU plays a role somewhat analogous to the brain in the computer. The term has been in...
, the Solid State was one of the first computers to use solid state
Solid state (electronics)
Solid-state electronics are those circuits or devices built entirely from solid materials and in which the electrons, or other charge carriers, are confined entirely within the solid material...
components.
The system used a clock derived from a timing band recorded on the main storage drum. This signal was read and amplified, processed and sent to the driver tubes, a pair of 6146 power pentode output tubes. The output from these 6146 tubes then fed the main clock power amplifier consisting of six 4CX250B metal/ceramic power tetrode tubes running in push-pull/parallel, yielding an output of a kilowatt. The SS80/90 computer could be heard quite clearly in the AM broadcast band at 707kHz and 1414kHz. The 4CX250B Tetrodes used a grounded plate (anode) due to forced aircooling requirements. Interestingly, this tube is still in demand by amateur radio operators. The power supply output was -1.6KV for cathode supply and -800V screen grid supply at 1.8A capacity. The supply weighed nearly 100 pounds and was mounted at the very top of the power supply stack.
The Line Printer
Line printer
The line printer is a form of high speed impact printer in which one line of type is printed at a time. They are mostly associated with the early days of computing, but the technology is still in use...
ran at 600 lines per minute, using a continuously rotating print drum technology, with letters, figures and punctuation marks distributed around the drum at each column. A row of solenoid-operated flat-faced print hammers comprised a print line. As a desired character arrived at the printing position, as indicated by timing marks on the end of the drum, a thyratron
Thyratron
A thyratron is a type of gas filled tube used as a high energy electrical switch and controlled rectifier. Triode, tetrode and pentode variations of the thyratron have been manufactured in the past, though most are of the triode design...
would fire and energize a solenoid, impelling its hammer to the back face of the printing paper. The paper would be bounced against a wide inked ribbon and against the drum, printing a character. The hammer would then rebound with a spring to await the next thyraton firing and the process would repeat on the next line down the sheet.
The Read/Punch unit had a maximum output rate of 150 cards per minute. Timing was quite critical throughout the operation of the card punch, the card reader and the printer, all being based on electromechanical principles. The basic card punch mechanism was manufactured by Bull, a French company with license to sell an 80 column punch. The machine came in two versions, the P147 and the P67, a main difference being electromagnetic clutch or a solenoid operated mechanical "dog" clutch to initiate a punch cycle. The machine had a preread station, a punch station and a checkread station. The machine could be quite difficult to maintain and required skill to troubleshoot. It consumed much of the maintenance time. The machine cycle was oddly divided into 420 "points" or "Bull degrees".