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CHAPTER : 6LOGIC FAMILIES4/13/20121Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.GTU Dec-2010 Questions(1)With neat circuit explain the two inputs TTL NAND gate using TOTAM POLE output also mention the advantages and disadvantages of TOTAM POLE output.(2)Define the following terms: :(1) Input bias current (2) Input offset voltage (3) PSRR (4)Noise margin(5) fan-in (6) Propagation delay (7)Figure of merit for logic families

(3)Describe the comparison of IC logic families.

(4)Explain with neat circuit diagram Tristate TTL devices.

4/13/20122Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.GTU June-2010 Questions1.Give the classification of Logic families. Also list the characteristics ofdigital IC and explain any three of them2.List the logic family. Give comparisons of each of them. Also give theadvantages and disadvantages of each logic families.

4/13/20123Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.GTU June-2011 Questions1.Define following parameters.I) Fan-out, II) Propagation delay, III) Speed power product, IV) Slew rate,V) CMRR, VI) Gain bandwidth product, VII) Power dissipation.

2.Give the comparison between various logic families.

4/13/20124Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.TOPIC 01Classification based on circuit complexitySSI: (3 to 30 gates/chip)The first integrated circuits held only a few devices, perhaps as many as ten diodes, transistors, resistors and capacitors, making it possible to fabricate one or more logic gates on a single device. Now known retrospectively as small-scale integration (SSI)MSI: (30 to 300 gates/chip)improvements in technique led to devices with hundreds of logic gates, known as medium-scale integration (MSI). LSI: (300 to 3,000 gates/chip.)Further improvements led to large-scale integration (LSI), i.e. systems with at least a thousand logic gatesVLSI: (more than 3,000 gates/chip)Very-large-scale integration (VLSI) is the process of creating integrated circuits by combining thousands of transistors into a single chipULSI:At one time, there was an effort to name and calibrate various levels of large-scale integration above VLSI. Terms like ultra-large-scale integration (ULSI) were used.4/13/20125Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.TOPIC 01Classification based on circuit complexity

4/13/20126Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.

Ques: 2 Various Logic Families

(A)Bipolar transistors :

(1) Saturated : RTL,DTL,DCTL,I2L,HTL,TTL(2)Unsaturated: Schottky TTL and ECL

(B) Unipolar MOSFET transistors : NMOS, PMOS, and CMOS

4/13/20127Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.Ques: 3 Important characteristics of each of IC families3.1 Current and Voltage Parameters : VIH (min) : high- level input voltageVIL (max) : low- level input voltageVOH (min) : high- level output voltageVOL (max) : low- level output voltageIIH : high- level input currentIIL : low- level input currentIOH : high- level output currentIOL : low- level output current

4/13/20128Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.Ques: 3 Important characteristics of each of IC families3.1 Current and Voltage Parameters :

4/13/20129Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.3.1 Current and Voltage Parameters : VCC: The voltage applied to the power pins.VT(Threshold Voltage): The voltage level at which input pins will transition from being in one state to another.VIH(Voltage Input HIGH):Minimumpositive voltage applied to aninput pinwhich will be considered by the device as a logic HIGH.VIL(Voltage Input LOW):Maximumpositive voltage applied to aninput pinwhich will be considered by the device as a logic LOW.VOH(Voltage Output HIGH):Minimumpositive voltage from anoutput pinwhich will be considered by the device as a logic HIGH

4/13/201210Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.3.1 Current and Voltage Parameters :

VOL(Voltage Output LOW):Maximumpositive voltage from anoutput pinwhich will be considered by the device as a logic LOW.IOH(Current Output HIGH): Current flowing into an output pin in the logical HIGH state under specified load conditions.IOL(Current Output LOW): Current flowing into an output pin in the logical LOW state under specified load conditions.IIH(Current Input HIGH): Current flowing into an input pin when HIGH is applied to that input.IIL(Current Input LOW): Current flowing into an input pin when LOW is applied to that input.

4/13/201211Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.Voltage Parameters7474S74LS74AS74ALS74FHCHCTAHCVOH(min)2.42.72.72.52.52.54.94.94.4VOL(max)0.40.50.50.50.50.50.10.10.44VIH(min)2.02.02.02.02.02.03.52.03.85VIL(max)0.80.80.80.80.80.81.00.81.654/13/201212Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.Ques: 3 Important characteristics of each of IC families

3.3 Noise Margin:

4/13/201213Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.Sinking and Sourcing

Output gates are just like any other gate, they can have current flowing in two directions: into the output node (sinking),out of the output node (sourcing). We can show the output of a gate circuit as being a double-throw switch, that can connect the output terminal to either VCC or GND, depending on the position of the switch. For a gate outputting a LOW logic level, the output is analogous to the following circuit:

4/13/201214Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.Sinking and Sourcing

Output gates are just like any other gate, they can have current flowing in two directions: into the output node (sinking),out of the output node (sourcing). We can show the output of a gate circuit as being a double-throw switch, that can connect the output terminal to either VCC or GND, depending on the position of the switch. For a gate outputting a LOW logic level, the output is analogous to the following Fig 1 & gate outputting a HIGH logic level, the output is analogous to the following Fig 2

Figure : 1Figure : 24/13/201215Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.Sinking and Sourcing

Figure : 1

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Figure : 2

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Figure : 2

Figure : 1The combination of Q3 and Q4 working as a push-pull transistor pair has the ability to eithersource current from VCC via the output terminal and into a load, or to sink current to GND via the output terminal from a load.4/13/201218Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.Sinking and Sourcing Summarize

The expressionssinkandsourcerelate to currents only and they referto which direction the current is flowing. It is important to remember that logic gates can source and sink a very limited amount of current, usually in the order of a few mA. Therefore, outputs taken directly from logic gates are not enough to operate LEDs, relays, and other devices directly.The following figure illustrates a driver NAND gate that sources current when the output is HIGH and sinks current when the output is low:

4/13/201219Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.Ques: 3 Important characteristics of each of IC families3.2 Fan In and Fan OutFan In:The fan-in defined as the maximum number of inputs that a logic gate can accept. If number of input exceeds, the output will be undefined or incorrect.Fan Out:The fan-out is defined as the maximum number of inputs (load) that can be connected to the output of a gate without degrading the normal operation. Fan Out is calculated from the amount of current available in the output of a gate and the amount of current needed in each input of the connecting gate. 4/13/201220Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.Ques: 3 Important characteristics of each of IC familiesFan Out:.

4/13/201221Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.Fan Out:For example, Input and output currents for the transistor-transistor logic (TTL) family are the following.Recall that negative current values indicate current flowing out of the gate while positive current values indicate current flowing into the gate:IOH= -400A (i.e., output can source a maximum of 400A)IOL= 16A (i.e., output can sink a maximum of 16A)IIH= 40A (i.e., input can sink a maximum of 40A)IIL= -1.6A (i.e., input can source a maximum of 1.6A)Therefore the fan-out is min ( 400/40, 16/1.6) = min (10, 10) = 10. In other words,each TTL gate can drive 10 other TTL gateswithout getting out of its guaranteed range of operation. If more than 10 gates were connected, the output voltage levels will degrade and the gate will slow down.

4/13/201222Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.Fan Out:

When the NOR gate output is HIGH, the output bin behaves as a current source since IOHflows out of the driver gate and into the set of driven gates. The current IOHequals the sum of all input currents indicated by IIH, flowing into the driven gates. In other words, IOH=Sum of IIH.When the NOR gate output is LOW, the output bin behaves as a current sink since IOLflows into the gate and out of the driven gates. The current IOLequals the sum of all input currents indicated by IIL, flowing out of the driven gates. In other words, IOL=Sum of IIL.4/13/201223Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.Ques: 3 Important characteristics of each of IC families

3.3 Noise Margin:

4/13/201224Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.Ques: 3 Important characteristics of each of IC families

Noise:Stray electric and magnetic fields can induce voltages on the connecting wires between logic circuits,These unwanted, spurious signals are called noiseNoise Immunity:Circuits ability to tolerate noise without causing spurious changes in the output voltage.Noise Margin:Quantitative measure of noise immunity is called Noise Margin.High-state noise margin : VNH = VOH (min) - VIH (min)Low-state noise margin : VNL = VIL (max) - VOL (max)

4/13/201225Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.Ques: 3 Important characteristics of each of IC families

High-state noise margin : VNH = VOH (min) - VIH (min)Low-state noise margin : VNL = VIL (max) - VOL (max)

Any noise voltage smaller than VOH - VIH will be tolerated and will not change the output value of the driven gate.Any noise voltage smaller than VIL - VOL will be tolerated and will not change the output value of the driven gate.For TTL: VNH = 2.7V - 2.0V =0.7V. VNL= 0.8V - 0.5V =0.3V.For CMOS: VNH = 4.95V - 3.5V =1.45V. VNL= 1.5V - 0.05V =1.45V.CMOS can tolerate much more noise than TTL.

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LVC: Low Voltage CMOS.LV: Low Voltage.AVC: Advanced Very Low Voltage CMOSCBT: Cross Bar TechnologyTVC: Translation Voltage Clamp4/13/201228Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.Propagation Delay

After an input to a logic gate changes, when does the output actually change? V50% = (VOH + VOL) / 2.tPHL: Difference in time between input and output signals for output to go from HIGH to V50% (see tphl in diagram above)tPLH: Difference in time between input and output signals for output to go from LOW to V50% (see tplh in diagram above)4/13/201229Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.Figure of Merit (Speed Power Product: SPP)A figure of merit of IC families is the product of their propagation delay and power consumption, called the speed-power product (SPP)the lower, the better.

4/13/201230Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.

4/13/201231Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.Diode-Transistor LogicWe can also use diodes in conjunction with transistors to create Diode-Transistor Logic (or simply a DTL gate) circuits. It is better to design a DTL gate than an RTL gate because it is lot easier to create diodes than resistors on a chip. A diode on the chip may in fact be a transistor connected as a diode.

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4/13/201233Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.DTL NOR Gate:We can use a diode OR circuit and couple its output to a transistor inverter (NOT) circuit in order to obtain a NOR gate. The resistance in the base circuit RB is selected to limit the base current.

4/13/201234Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.DTL NOR Gate:

4/13/201235Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.

4/13/201236Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.DTL NAND GATE

We can use a diode AND circuit followed by a transistor inverter (NOT) circuit to obtain a NAND gate.

The minimum voltage at C to turn on Q is 1.3 V [0.7 V for D3 and 0.6 V for Q].The maximum value of the input voltage, VIL, for the high output signal is 0.6 V [1.3 0.7]. Thus, the lower-noise margin is only 0.4 V. It would be better to use at least one more diode in series with D3 in order to increase the lower-noise margin.4/13/201237Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.DTL NAND GATE

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4/13/201248Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.Reference:http://diranieh.com/Electrenicas/DigitalAnalog.htmUniversity of Connecticut

4/13/201249Prof.Robinson Paul ,BVM Engineering College ,V.V.Nagar.4913-04-2012Prof.Robinson Paul , BVM Engineering College , V.V.NagarSheet1ComplexityNumber of GatesSmall-scale integration(SSI)Fewer than 12Medium-scale integration(MSI)12 to 99(102 - 103)Large-scale integration(LSI)100 to 9,999(103 - 105)Very large-scale integration(VLSI)10,000 to 99,999(105 - 107)Ultra large-scale integration(ULSI)100,000 to 999,999(107 - 109)Giga-scale integration(GSI)1,000,000 or more(109 - 1011)Tera-scale integration(TSI)(1012 or more)