cmos and ttl techmologies
TRANSCRIPT
CMOS and TTL Technologies
Z. Jerry ShiDepartment of Computer Science and EngineeringDepartment of Computer Science and Engineering
University of Connecticut
CSE2300W:Digital Logic Design
Physical states representing bits
Technology State Representing Bit
0 10 1
Relay logic Circuit open Circuit closed
CMOS logic 0-1.5V 3.5-5V
Transistor-transistor logic 0-0.8V 2-5V
Fiber optics Light off Light on
Dynamic memory Capacitor discharged Capacitor charged
Nonvolatile, erasable memory Electrons trapped Electrons released
Bipolar read-only memory Fuse blown Fuse intactBipolar read only memory Fuse blown Fuse intact
Magnetic tape or disk Flux direction N Flux direction S
Read-only compact disc No pit Pit
Writeable compact disc (CD-R) Dye in crystalline state Dye in noncrystalline state
CMOS logic levels
• Undefined region is inherent• Switching threshold varies with voltage temp process phase of the moon• Switching threshold varies with voltage, temp, process, phase of the moon
– Need “noise margin”– The average weekly count of failure in Q in Los Alamos Lab is 47.1
• The more you push the technology, the more “analog” it becomes– Logic voltage levels decreasing with process– 5 3.3 2.5 1.8 V
Noise margins
Low voltage CMOS logic
Metal-Oxide-Semiconductor (MOS) Transistors
Voltage-controlled resistance
PMOSPMOS
NMOS
CMOS Inverter
Inverter
Inverter behavior
CMOS NAND gate
CMOS NOR gate
Example of LS-TTL gates: 2-input NAND
TTL Logic Levels and Noise Margins
• Asymmetric, unlike CMOS
• CMOS can be made compatible with TTL– “T” CMOS logic familiesT CMOS logic families
CMOS vs. TTL Levels
TTL Levels
CMOS with TTL Levels -- HCT, FCT, VHCT, etc.
TTL features
• TTL families7400 series– 74 (standard), 74H(high speed), 74L(low-power), 74S(Schottky),
74LS(low-power Schottky), 74AS(Advanced Schottky), 74ALS (Advanced low-power Schottky), 74F(Fast)
• Unused gate inputs can be left unconnected, but should be connected to be safe– An output of other gates– 1 or 0 through pull-up or pull-down resistorsg p p p
• Output– Totem pole
Tri state– Tri-state – Open-collector
CMOS features
• CMOS families: – 4000 series4000 series– 7400 series:
• 74HC (high-speed CMOS), 4 C ( i h d C OS ibl )• 74HCT(High-speed CMOS, TTL compatible)
• 74AC(Avanced CMOS)• 74ACT(Advanced CMOS, TTL compatible)• 74FCT(Fast CMOS, TTL compatible) • 74FCTT(Fast CMOS, TTL compatible with TTL VOH)
• Do not leave unused gate inputs unconnected• Do not leave unused gate inputs unconnected• Output
– Regular, Tri-state, Open-draing , , p
Chip density for various scales of integration
Timing specifications
• Maximum: the longest delay a circuit may have– The delay of the path is never longer than the maximum– What does never mean?
• Depends on manufacturers and logic families• 74LS: VDD = 5V, T = 25ºC, no capacitive load
f ll i l d d l d f• 74ACT: full operating voltage and temperature range and a load of 50pF
• Typical: what you see from a device that was manufactured on a good day and i ti d id l ditiis operating under near-ideal conditions
• Minimum: The smallest delay that a path will ever exhibitM t ll d i d i it k if th i i d l i 0– Most well-designed circuits work even if the minimum delay is 0
– Needs to be considered in some circuits• Help designers to meet the hold-time requirements
Propagation delay of selected 5-V CMOS and TTL SSI parts
In nanoseconds
MSI parts
In nanoseconds
Fan-in and Fan-out
• A logic family’s fan-in is the number of inputs that a gate can have– More inputs more resistors in series long delay– Faster to cascading multiple gates
• Fan-out refers to the number and type of device inputs and other loads that are connected to a given output– Large fan-out more load long delayLarge fan out more load long delay– Large load inadequate noise margins