Model No.: DLCT-17202
Features:
A complete digital logic circuits trainer.
Understand the theories and applications of digital logic circuits.
Suitable for both technicians and college students in the electronic and electrical majors.
Curriculum Outlines:
Design and implementation of basic logic gate circuits and clock generator circuits.
Design and implementation of memory circuits and converter circuits.
Design and implementation of combinational logic circuits and sequential logic circuits.
Design and implementation of logic application circuits.
Module One: DLCT-17202-01
Basic Logic Gate Circuits:
Experiment 1: Logic Gate Structure Circuits (DL, RTL, TTL, COMS)
Input Date Length: 2 bits
Input Date Mode: DIP Switch
Experiment 2: Logic Gate Circuits (AND, NAND, NOT, OR, NOR, XOR Gates)
Experiment 3: Voltage and Current Measurement (TTL. CMOS)
Voltage Measurement: VIH,VIL ,VOH ,VOL
Current Measurement: IOH, IOL
Experiment 4: Interface between Logic Gate Circuits (TTL and CMOS Transform)
TTL to CMOS Transform:
Input: 5V, Output: 12V
CMOS to TTL Transform:
Input: 12V
Output: 5V
Experiment 5: Transmission Delay Measurement (TTL, CMOS)
TTL Transmission Delay: 20.8nS, CMOS Transmission Delay: 99.1nS
Module Two: DLCT-17202-02
Combinational Logic Circuits
Experiment 1: 4 Bits Comparator Circuit
Input Data Length: 4 bits
Input Data Mode: DIP Switch
Output Data Length: 3 bits
Data Display Mode: LED Display
Experiment 2: 9 Bits Parity Generator
Input Data Length: 9 bits
Input Data Mode: DIP Switch
Output Data Length: 2 bits
Data Display Mode: LED Display
Experiment 3: Tri-state and Schmitt Gate Circuit
Tri-state Gate:
Data Length: 1 bit
Input Data Mode: DIP Switch
Schmitt Gate:
Measurement:VIH,VIL ,VOH ,VOL
Experiment 4: Half Adder and Full Adder
Half Adder:
Input Data Length: 2 bits, Input Data Mode: DIP Switch
Output Data Length: 2 bits, Data Display Mode: LED Display
Full Adder:
Input Data Length: 3 bits, Input Data Mode: DIP Switch
Output Data Length: 2 bits, Data Display Mode: LED Display
Experiment 5: Half Subtractor and Full Subtractor
Half Subtractor:
Input Data Length: 2 bits, Input Data Mode: DIP Switch
Output Data Length: 2 bits, Data Display Mode: LED Display
Full Subtractor:
Input Data Length: 3 bits, Input Data Mode: DIP Switch
Output Data Length: 2 bits, Data Display Mode: LED Display
Module Three: DLCT-17202-03
Extended Combinational Logic Circuits
Experiment 1: Arithmetic Logic Unit Circuit
Input Data Length: 4 bits, Input Data Mode: DIP Switch
Output Data Length: 4 bits, Data Display Mode: LED Display, Operation Instruction: 16 types.
Experiment 2: Encoder Circuit
Input Data Length: 8 bits, Input Data Mode: DIP Switch
Output Data Length: 3 bits, Data Display Mode: LED Display
Experiment 3: Decoder Circuit
Input Data Length: 3 bits, Input Data Mode: DIP Switch
Output Data Length: 8 bits, Data Display Mode: LED Display
Experiment 4: Multiplexer Circuit
Input Data Length: 4 bits, Input Data Mode: DIP Switch
Output Data Length: 1 bit, Data Display Mode: LED Display
Experiment 5: Demultiplexer Circuit
Input Data Length: 1 bit, Input Data Mode: DIP Switch
Output Data Length: 4 bits, Data Display Mode: LED Display
Experiment 6: Digitally Controlled Analog Multiplexer and Demultiplexer Circuits
Multiplexer: Input Voltage: 0 ~ 5V, Input Quantity: 2, Output Voltage: 0 ~ 5V, Output Quantity:1
Demultiplexer: Input Voltage: 0 ~ 5V, Input Quantity:1, Output Voltage: 0 ~ 5V, Output Quantity:2
Module Four: DLCT-17202-04
Clock Generator Circuits
Experiment 1: Construct Oscillator Circuit with Basic Logic Gates and Schmitt Gate
Basic Logic Oscillator: Output Frequency: 3.58 MHz,
Schmitt Gate Oscillator: Output Frequency: 3.58 MHz
Experiment 2: Voltage Controlled Oscillator Circuit
Output Frequency: 26.8 kHz ~ 35.5 kHz
Experiment 3: BJT Astable Multivibrator Oscillator Circuit
Output Frequency: 160kHz
Experiment 4: Operational Amplifier Oscillator Circuit
Output Frequency: 2.56 kHz
Experiment 5: 555 Astable Multivibrator and Monostable Multivibrator Oscillators
Astable Multivibrator: 4.75 Hz, Mono Multivibrator: Controlled by User
Module Five: DLCT-17202-05
Sequential Logic Circuits
Experiment 1: RS Flip-Flop Circuit
Input Data Length: 2 bits, Input Data Mode: DIP Switch
Output Data Length: 1 bit, Data Display Mode: LED Display
Experiment 2: JK Flip-Flop Circuit
Input Data Length: 2 bits, Input Data Mode: DIP Switch
Output Data Length: 2 bits, Data Display Mode: LED Display
Experiment 3: D Flip-Flop Circuit
Input Data Length: 1 bit, Input Data Mode: DIP Switch
Output Data Length: 2 bits, Data Display Mode: LED Display
Experiment 4: Asynchronous Counter Circuit
Input Data Mode: DIP Switch
Output data Length: 4 bits, Data Display Mode: LED Display
Experiment 5: Synchronous Counter Circuit
Input Data Mode: DIP Switch
Output Data Length: 5 bits, Data Display Mode: LED Display
Experiment 6: Presetable Synchronous Counter Circuit
Presetable Data Length: 4 bits, Input Data Mode: DIP Switch
Output Data Length: 5 bits, Data Display Mode: LED Display
Count Mode: Up Count or Down Count
Module Six: DLCT-17202-06
Memory Circuits
Experiment 1: Construct ROM Circuit with Diodes
Store Data Length: 2 bits, Data Display Mode: LED Display
Experiment 2: Construct RAM Circuit with D Flip-Flop
Input Data Length: 2 bits, Input Data Mode: DIP Switch,
Output Data Length: 4 bits, Data Display Mode: LED Display
Experiment 3: Programmable ROM Circuit
Experiment 4: 64 Bits RAM Circuit
Input Data Length: 4 bits, Input Data Mode: DIP Switch
Output Data Length: 4 bits, Data Display Mode: LED Display
Module Seven: DLCT-17202-07
Converter Circuits
Experiment 1: OPA ADC Circuit
Analog Input: 0 ~ 5V, Data Display Mode: LED Display, Resolution: 4 bits
Experiment 2: ADC0804 ADC Circuit
Analog Input: 0 ~ 5V, Data Display Mode: LED Display, Resolution: 8 bits
Experiment 3: 4 Bits R-2R DAC Circuit (Digital Input 4 bits, Analog Output 0 ~ 5V)
Experiment 4: Unipolar DAC0800 DAC Circuit
Digital Input Length: 8 bits, Input Data Mode: DIP Switch, Analog Output: 0 ~ 5 V, Step Value: 0.019V
Experiment 5: Bipolar DAC0800 DAC Circuit
Digital Input Length: 8 bits, Input Data Mode: DIP Switch, Analog Output: -5V ~ 5V, Step Value: 0.038V
Module Eight: DLCT-17202-08
Logic Application Circuits
Experiment 1: Electronic Voting Circuit (7408, 7404, 7432, 7486)
Experiment 2: Electronic Wheel-amusement Circuit (VCC=12V, IC:555, CD4017B)
Experiment 3: Electronic Jeopardy Game Circuit (VCC=12V, CD4011B)
Experiment 4: Traffic Light Circuit (VCC=12V, IC:555, CD4017B)