Systems Interface Circuits

variations and overtemperature conditions. Protection circuitry to shut down the computer set before component damage occurs is also included. Figure 4-33 shows an example of a comparator symbol. TIMERS.— Timers use a basic comparator circuit to drive a flip-flop. They can be used to produce a circuit known as an astable multivibrator, which is used to generate digital pulses of known widths and to provide known time delays in digital circuits. These timer circuits are used in the computer’s timing and control section. See figure 4-34. Systems Interface Circuits Systems interface circuits amplify data signals entering or leaving the computer. They act as a go between, or interface that allows the various functional areas or subsystems of a computer system to be coupled together. The systems interface circuits of a computer can be classified into the following areas: memory drivers and sense amplifiers; peripheral and display drivers; and line drivers and receivers. MEMORY DRIVERS AND SENSE AMPLIFIERS (DC AMPLIFIERS).— These circuits serve as writing and reading units for magnetic memories. Specifically they perform the following: l Memory drivers —The memory drivers write information into magnetic memories. l Sense amplifiers —The sense amplifiers get the data out. They sense when a core flips from a 0 to a 1 or vice versa. This reduces the chances of interference from stray signal sources. PERIPHERAL AND DISPLAY DRIVERS.— These drivers are similar to memory and line drivers. They drive digital information in computer, peripheral, and display equipment. They do this by receiving a small voltage and current digital signal(s) from bipolar, MOS, or CMOS logic gate output and generating large voltage or current output digital signal(s). Specifically these circuits perform the following: Peripheral drivers receive l Peripheral drivers — an input from bipolar or MOS logic gate output and drive the output stage so that relatively large output currents can be controlled with low-level logic signals. Peripheral drivers use a single input and output application. They are very useful for driving indicator lamps or drive relays. See figure 4-35. Display drivers use a multiple l Display drivers — input and output application. Three types of displays Figure 4-35.—Example of a peripheral driver IC. have drive requirements; they are the ac plasma display, the electroluminescent (EL) display, and the vacuum fluorescent (VF) display. Each of the three display drivers requires high voltages but each has unique voltage and current requirements. LINE DRIVERS AND RECEIVERS. — Line drivers and receivers are used in the transmission of digital signals over both long and short distances. Line drivers are used at the sending end and line receivers are used at the receiving end. They are used in serial and parallel applications for sending and receiving data in I/O operations of the computer. There are two types of line drivers and receivers as follows: l Single-ended line drivers and receivers — Single-ended line drivers and receivers (fig. 4-36) are used for short distances. They have a single input and output at both the transmitting and receiving end. They are usually wire cables, possibly with an outer shield connected to ground. They are used for local transmission to external equipments (including computers) and for remote communications with modems. Figure 4-36.—Example of a single-ended line driver and receiver. 4-21