Brand: CL
Model: YK-135
Pictures are for reference only.
| SPECIFICATIONS:
1. DC POWER SUPPLY (1) Fixed DC power supply: a. Voltage range: +-5V,+-12V b. Max. Current output: 0.3A c. With output over-load protection (2) Dual DC power supply: a. Voltage range:+-3V to +/-18V, continuously adjustable b. Max. Current output: 1A c. With output over-load protection 2. AC POWER SUPPLY a. Voltage range: 9V to 0V , 9V b. Max. Current output: 500 m A c. With output over-load protection 3. SINGAL GENERATOR (1) Pulse generator: (TTL level) a. Frequency range: 1Hz to10KHz 4 settings, continuously adjustable b. Fan out: 10 TTL load (2) Pulse switches: a. 2 independent output, TTL level b. With Q, Q output, pulse width garter 5ms c. Fan out: 10 TTL load (3) Data switches a. 8 sets independent control output, TTL level with De-bounce circuit. b. Fan out: 10 TTL load FUNCTION GENERATOR (1) Output waveform: Sine, triangle, s quire (2) Output frequency: 10 to100KHz/4 settings, continuously adjustable (3) Output amplitude: 18Vpp (open circuit) 9Vpp (50 O load) 5. TESTING AND DISPLAY (1) 3 1 div2 digital voltmeter/ammeter a. DC voltage range: 2V,200V b. DC voltage accuracy: +/-(0. percentage of reading +1 digit) c. DC current range: 200 (2) Galvanometer a. Current range 50mA b. Accuracy Class 2.5 (3) LED indicator a. 10 sets independent LED indicates high, low logic state b. Input impedance: ≥100KΩ (4) Digital display a. 2 sets independent 7-segment LED b. With BCD-7segment decoder/driver and DP Input c. Input with 8-4-2-1 code Breadboard: 1680 tie-point breadboard on top panel can be easily put into and taken off
Accessories: Experiment manual, connection leads, connection plugs, breadboard List of Module: a. Basic Device Module b. Basic Electricity Experiment Module c. Sensor Module(1) d. Sensor Module(2) e. Diode, Clipper and Clamper Module f. Rectifier, Differentiator Integrator Circuit Module g. Transistor Amplifier Circuit Module h. Multi-Stage Amplifier Circuit Module i. FET Circuit Experiment Module j. OP Amplifier Circuit Module 1, 2, 3, 4, 5 k. Combination Logic Circuit Experiment Module 1, 2, 3, 4, 5 l. Sequential Logic Circuit Experiment Module 1, 2 j. System Transformer ( sate delta )
List of Experiment: Basic Measurement: -Resistance Measurements -Potentiometer characteristics -DC Voltage measurement -DC current Measurement -Ohm’s law application -AC voltage measurement -AC current measurement DC Circuits – Series-parallel network and kirchhoff’s law – Wheatstone bridge – Superposition, thevenin’s and norton’s theorems – Power in DC circuit – Maximum power transfer theorem – DC RC circuit and transient phenomena – DC RL circuit and transient phenomena .AC Circuits – AC RC circuit – AC RL circuit – AC RLC circuit – Series-resonant circuit – Parallel-resonant circuit – Power in AC circuit Control Circuits -Water Level Control – Metal Detector -Light Controller Diode Characteristics – PN-junction diode Characteristics – Zener diode Characteristics – LED Characteristics – Photodiode Characteristics Rectifiers and Filters -Half-wave rectifier -Full-wave rectifier-Bridge rectifier Dual-power rectifier -Voltage doubler Diode Clipping and Clamping Circuits -Clipping circuits -Clampping circuits Differentiator and Integrator -RC circuit -Differentiator circuit -Integrator circuit -RL circuit Transistor Characteristics -Basic transistor Characteristics -Transistor Cha racteristics curves Multistage Amplifiers -RC-coupled -Direct -coupled amplifier -Transistor-coupled amplifier -Dual-end push -pull amplifier FET Characteristics -JFET Characteristic s -MOSFET Characteristic FET Amplifiers – JFET CS amplifier – JFET CD amplifier – MOSFET CS amplifier OPA AMP Characteristics differential amplifier in OP AMP -OP AMP Characteristics measurements Basic OP AMP Circuits – Inverting amplifier -Noninverting amplifier. -Voltage follower. -Differential amplifier. -Adder Clipping circuit. -Constant voltage circuit -Constant current circuit. -Differentiator -Integrator -Instrumentation amplifier. OP AMP Applications -Active high-pass filter. -Active low-pass filter – Active band-pass filter – Tone control circuit OP AMP Comparators and Oscillators – Comparators – Schmitt trigger – Window comparator -Monostable multivibrator. – Astable multivibrator. – Sine wave oscillator. – Crystal oscillator Logic gate circuit -TTL circuit – CMOS circuit Threshold voltage measurement – Measuring TTL threshold voltage. – Measuring CMOS threshold voltage.Voltage/current measurement – Measuring TTL I/O voltage and current. – Measuring CMOS voltage and current. Characteristics of basic logic gates – Measuring AND gate characteristics – Measuring OR gate characteristics – Measuring NOT gate characteristics. -Measuring NAND gate characteristics. – Measuring NOR gate characteristics – Measuring XOR gate characteristics Interface between logic gates – TTL to CMOS interface. – CMOS to TTL interface. Combinational Logic Circuits – NOR gate circuit – NAND gate circuit – XOR gate circuit -Constructing XOR gate with NAND gates -Constructing XOR gate with Basic gates. -AOI gate circuits Comparator circuits -Constructing comparator with basic logic gates – Constructing comparator with TTL IC Adders and Sub tractors -Half-and Full-Adder Circuits – Constructing half – and full-adders with basic logic gates – Constructing 4-bit full-adder with IC – Constructing BCD adder. – Half-and Full-Subtractor Circuits – Constructing half-/full-subtractors with basic logic gates -Constructing 4-bit full-subtractor with IC Encoders and Decoders – Encoder circuits – Constructing 4-to-2-line encoder with basic gates – Constructing 10-to-4-line encoder with TTL IC – Decoder circuits – Constructing 2-to-4-line decoder with basic gates – Constructing 4-to-10-line decoder with TTL IC – Constructing BCD-to-7-segment decoder5. Multiplexers and Demultiplexers – Multiplexer circuits – Constructing 2-to-1-line multiplexer with basic gates – Using multiplexer to create function. – Constructing 8-to-1-line multiplexer with TTLIC – Demultiplexer circuits – Constructing 1-to-2-line demultiplexer with basic logic – Constructing 1-to-8-line demultiplexer with CMOS IC – Analog Multiplexer/demultiplexer circuits Arithmetic Elements -Arithmetic Logic Unit (ALU) circuit -Parity generator circuit – Parity generator constructed with XOR gates -Parity generator IC Sequential Logic Circuits – Flip-flops – Constructing RS flip-flop with basic logic gates – Constructing D flip-flop with RS flip-flop – Constructing JK flip-flop with RS flip-flop -Constructing master-slave JK flip-flop with RS flip-flop – Constructing shift register with D flip-flops – Preset left/right shift register -Constructing noise elimination circuit with RS flip-flops -Counters- Constructing divide-by-8 counter with JK flip-flops -Constructing synchronous counter with JK flip-flops- Constructing divide-by-8 counter with 7490 -Constructing BCD Counter with 7490 Sequential Logic Applications -Moving LED control -Traffic light control Including Brand PC -Processor AMD Ryzen 7/ Intel Core i7(13th /14th Generation), (25MB CPU Cache, 3.5GHz Base up to 6.0GHz, Built in CPU cooler must be included) Motherboard- processor.(Memory type-DDR4/DDR-5, Memory Slot-2/4 (at least-64GB), Storage slot-2/4, WiFi-6 built, must be integrated with external Graphics Card) RAM: 16GB (DDR-4/DDR-5) Storage-SSD- 500GB at least Graphics Card-External Graphics Card at least 4 GB (Processor & Motherboard) Monitor at least 21.5-inch, Display Resolution: 1920×1080 (W x H) FHD OS Windows 10/11 (Genuine Version) With Computer Table- High density melamine chip board (Size- 48W×22D×35H) Mouse & Keyboard- included.
|
- YK-135 is composed of: Aluminum alloy frame, power supply bench, experiment component box;Aluminum alloy moveable frame: put all modules (YALONG standard modules) on them, can be extended at random, to complete many experiments, and also is equipped with 1 cabinet to store tools and component box. Power supply bench: composed of 2 independent power supplies and instruments, meeting the requirements for 2 students to make different experiments at the same time; the device uses 1-phase power supply, and is equipped with leakage protection air switches, fuses to ensure the security.Power supply: 1 group of adjustable DC power supply 0~24V/2A, with overload and short circuit protection function; 1 group of 3~24V AC power supply, 7 stages adjustable; 1 group of ±5V, ±12V switching DC voltage stabilization power supply; 1 piece of precise digital voltmeter (DC 30V), 1 piece of precise digital ammeter (DC 2000mA); with 8 channels of 1-phase power supply sockets for easy usage and extension.Codes and marks on component boxes are in accordance with the most updated China national standards, compact and nice, easy to install, use and maintain, therefore, it is an ideal updated product for various electronic experiments and teaching in various colleges, secondary technical and vocational schools.The component boxes are most advanced patented products, with components inside, as well as typical circuits, meters and ICs, can be used to compose various experiment circuits according to requirements; the experiments are open and innovative, made of transparent organic engineering plastic for demonstration, and the students can see the components and wirings directly to understand the fundamentals, helpful in teaching; the board is made of PCB, clear and obvious, endurable and the components inside are easy to replace; the wires and sockets are made of high-quality copper, with elastic plugs for connection in experiments, reliable and safe; the experiment circuits for various experiments and course design products can be combined or composed in an easy way according to the requirements on skills training.
Be the first to review “Basic Electronics Trainer”
Related products
Uncategorized
Uncategorized
Uncategorized
Uncategorized
Uncategorized
Uncategorized
Uncategorized
Reviews
There are no reviews yet.