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Electrical training

ZOPSXK-745D General Electric Technology Experimental Device

General Electricity Technical Experimental Put, Electrician Basic Training Device Experimental Table is equipped with a general circuit board, an injection of the circuit board, and the surface cloth has porous into a set of connecting jacks. The component box is arbitrarily inserted into an experimental circuit.

1. Product features:

The experimental bench has relatively complete safety protection measures and relatively complete functions. The center of the experimental table is equipped with a universal circuit board. The circuit board is made of injection molding. The surface is porous and forms a set of interconnected jacks. The component boxes can be inserted into the experimental circuit at will. The box body and lid adopt a more scientific clamping structure, which is convenient for m*ntenance and disassembly. The components are placed in the left and right cabinets under the experimental table, which greatly improves the management level and planning level, and greatly reduces the teacher's experimental preparation work.

2. Experimental bench and operating table structure:

1. Experimental bench shell size: 123×35×20cm        

2. Three phase fuse

3. Three-phase power input indicators

4. M*n switch: m*n switch of the power supply of the experimental bench, with leakage and overload protection

5. Test button: Test the leakage function of the leakage switch

6. Power input indicator 1

7. 3 power output indicators (red, green and yellow)

8. AC voltmeter: Indicates output line voltage

9. Voltage conversion switch: Used in conjunction with a voltmeter to monitor the size and symmetry of the output line voltage

10. 5 terminal blocks: unit A three-phase four-wire and ground wire output

11. Ammeter W phase current output indication

12. O/I switch: three-phase four-wire power output control

(Improve safety factor)

13. 2 terminal blocks: Unit B AC low-voltage power output   

14. Electric meter (2A): Unit B AC current indication         

15. Knob: Unit B 3-24V AC low voltage selection output

16. Switch: C unit dual-channel DC regulated power supply switch     

17. Knob: C unit dual-channel I channel steady flow adjustment         

18. Knob: C unit dual-channel II channel steady flow adjustment         

19. 2 terminal blocks: Unit C Ⅰ DC regulated output   

20. Insurance holder: C unit dual-channel regulated power supply fuse       

twenty one. 4 electric meters: dual-channel regulated power supply voltage and current indication     

twenty two. Terminal block: D unit DC 5V regulated output

twenty three. Electric meter: D unit current 0.5V output indication        

twenty four. Switch 1: Controls various low-voltage alternating current and signal sources

25. Switch 2: Control the AC and DC voltage-regulated power supply of unit E      

26. Electric meter: E unit AC voltage output indication         

27. 4 terminal blocks: E unit AC and DC output ports    

28. Knob: E unit 0~240V voltage adjustment

29. Socket: G unit 220V output socket

30. Knob: Audio power amplifier volume adjustment

31. 2 terminal blocks: audio signal input

32. Button: Single pulse enable switch

33. 3 terminal blocks: single pulse output port

34. Electric meter: function generator sine wave output voltage indication

35. Knob: coarse adjustment of three-level attenuation amplitude of sine wave output

36. Knob: Sine wave output port

37. Terminal block: sine wave output port

38. Knob: Rectangular wave output amplitude adjustment

39. Terminal block: triangle wave output port

40. Knob: Function signal generator frequency fine adjustment

41. Terminal block: rectangular wave output port

42. Knob: Function signal generator five-level frequency coarse adjustment

43. Electric meter: function generator output frequency indication

44. Multimeter: MF47 type

45. Intelligent AC circuit measuring ammeter: It can measure circuit I, U, KW, Kwh, T at the same time through switch switching, eight-digit LCD display.

46. Experimental desktop size: 160×70cm

47. Universal circuit board: specification 35×90cm, component boxes can be assembled and inserted on it for experiments

48. Storage board: Place component boxes

49. Left storage cabinet: place storage board (with door lock)

50. Drawer: place commonly used tools

51. Right storage cabinet: place storage board (with door lock)

3. M*n technical indicators of the experimental bench:

1. Input working power: three-phase four-wire

2. Output power and signal

Unit A: three-phase four-wire

Unit B: AC 3, 6, 9, 12, 15, 18, 24V

Unit C: Dual-channel constant-current regulated power supply (with overload and short-circuit protection functions), both output voltages are 0~30V, built-in relay automatically shifts gears, and is continuously adjusted by a multi-turn potentiometer. It is easy to use and outputs the maximum current. It is 2A and has preset current limiting protection function.

Voltage stability: <10-2 Load stability: <10-2 Ripple voltage: <5mv

Unit D: DC regulated voltage 5V, current 0.5A

Unit E: AC and DC voltage continuously adjustable from 0 to 240V, current 2A

Unit F: 220V voltage output for external instruments. 

3. Single pulse source: a p*r of positive and negative pulses can be output each time

4. Function signal generator (sine wave, triangle wave, rectangular wave)

① Frequency range: 5HZ-550KHZ is divided into five frequency bands

② Frequency indication: read directly from the HZ meter

③Voltage output range: sine wave: 5HZ-250KHZ>4.5V, 250KHZ-550KHZ>3.5V

                   Three levels of attenuation: 0db, 20db, 40db with continuous fine adjustment

      Rectangular wave: 5HZ-250KHZ>4.5V, 250KHZ-550KHZ>3.5V, the amplitude is continuously adjustable

      Triangular wave: 5HZ-550KHZ>1V

5. Audio power amplifier: The input audio voltage is not less than 10mv, the output power is not less than 1W, the volume is adjustable, and there is a speaker inside, which is used for amplifier circuit amplification and can also be used as a signal tracing instrument.

6. Intelligent multi-functional AC measuring meter: with an accuracy of level 1.0, it can simultaneously measure the circuit current I, voltage U, power Kw, electric energy Kwh and working time T. It has an eight-digit LCD display.

7. Insulation resistance: >5MΩ

8. Leakage protection: leakage action current ≤30mA

4. Structure and equipment

1. Experimental table: Student experimental table, one table with two seats, table dimensions: 160×70×80cm. A porous circuit board is placed in the center of the table, and component boxes can be randomly inserted on it according to the experimental circuit to form an experimental circuit. Each desk is equipped with a rubber plate to protect the general circuit board and desktop (if you need to place a motor on the desktop for welding, etc.). The lower part of the table is a component storage cabinet where experimental components are placed.

2. Equipment and equipment:

Three-phase motors, time relays, thermal relays, AC contactors, AC and DC ammeters, MF-47 multimeters, wire strippers, needle nose pliers, screwdrivers and other tools, resistors, potentiometers, inductors, capacitors, transformers required for experiments, Bar magnets and other component unit boxes (the components are already installed in the unit box).

5. Experimental projects        

1. Use of electrical measuring instruments

2. Identification and detection of commonly used components

3. Volt-ampere characteristics of linear components and nonlinear components

4. External characteristics of power supply

5. Measurement of potential value and voltage value

6. Range extension for ammeters and voltmeters

7. Verification of Kirchhoff's Laws

8. Verification of Lenz's Law

9. Verification of the superposition principle and reciprocity theorem

10. Verification of Thevenin's Theorem and Norton's Theorem

11. Equivalent transformation of voltage source and current source

12. Research on controlled source characteristics

13. First order circuit experiment

14. Transition process of second-order circuit

15. Study the characteristics of LC components in DC and AC circuits

16. Conditions for the load to obt*n maximum power

17. Measurement of AC circuit parameters

18. Characteristics of RLC components in sinusoidal AC circuits

19. RL and RC series circuit experiment

20. RLC series resonant circuit

twenty one. Fluorescent lamp circuit connection and power factor improvement

twenty two. Star and delta connection of three-phase load

twenty three. Three-phase circuit and power measurement

twenty four. Research on RC Frequency Selective Network

25. Two-port network research

26. Single phase transformer experiment

27. Mutual inductance circuit experiment

28. Use and starting of three-phase asynchronous motor

29. Basic circuit of three-phase motor relay contact control

30. Three-phase motor Y-△ starting control experiment

31. Sequential control experiment of three-phase motor

32. Three-phase motor energy consumption braking control experiment

The following circuit experiments can also be completed using the components of the above 32 experiments.

33. The simplest circuit

34. Selection of potentials and reference points at each point in the circuit

35. series connection of resistors

36. Resistors in parallel

37. Mixed connection of resistors

38. resistor divider circuit

39. Ohm's law for the whole circuit

40. Bridge application and balancing conditions

41. node voltage method

42. loop voltage method

43. branch current method 

44. RCL parallel circuit

45. series circuit

46. Transformer structure and working principle

47. Kirchhoff's first law

48. Kirchhoff's second law

49. Fluorescent lamp circuit principle

50. Expand the voltmeter range

51. Expand ammeter range

52. Transition process of RC circuit

53. RL transition process

54. series circuit of capacitors

55. capacitor parallel circuit

56. Capacitor charging and discharging

57. The role of capacitors in AC and DC

58. Movement of bar magnet in coil

59. Mixed connection of capacitors

60. Pure resistance, inductance, capacitance circuits

61. Magnetic coupling coil sequence

62. Counter-series of magnetically coupled coils

63. How an ohmmeter works

64. Double switch two ground control

65. Use an oscilloscope to observe the hysteresis loop

66. Magnetic Circuit Ohm's Law

67. The mutual inductance of the two coils and the same terminal

68. mutual inductance coupling

69. How to improve power factor

70. Measurement of single-phase circuit power

71. Radio recorder power circuit

72. filter circuit

73. The relationship between resistance and temperature: measuring the filament using voltammetry

resistance at different voltages.

74. Three-phase asynchronous motor knife control forward rotation experiment

75. Control circuit with overload protection

76. Button controlled forward and reverse control circuit

77. Contactor control star-delta step-down starting control circuit

 

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