Technology Electronic Experiment training equipment
Product Details:
| Tech Electro Lab | Electro Training Device |
|---|---|
| Place of Origin | Zhejiang, China |
| Brand Name | BCY |
| Model Number | BCY-E01 |
Payment & Shipping Terms:
| Minimum Order Quantity: | 1 Set/Sets |
|---|---|
| Packaging Details: | wooden case |
| Delivery Time: | 30days |
| Payment Terms: | L/C,T/T |
| Supply Ability: | 45 Set/Sets per Month |
Detailed Product Description
I. Overview
BCY-E01 electronic practical training device is designed according to the requirements of the teaching experiment outlines of some courses like electronic technology basis, electronic skill training and electronics in vocational school, technical school and secondary vocational school. According to the demand of teaching and training, different components and plug-in circuit boards can be chosen to finish various trainings of projects. It is the modern electronic training evaluation device integrating theory study, experimental verification and skill training.
II. Technical Parameter
1. Working power Three-phase and five-line AC380V±5% 50Hz
2. Dimension 1500 × 700 × 17mm
3. Working environment -1040
4. Relative humidity 20%90%
5. Security system with current-type and voltage-type leakage protection device 6. AC power output 3-phase AC 380V/3A single-phase AC 220 V/3A
7. AC power output 3V, 9V, 12V, 15V, 18V, 24V
8. DC power supply DC5V, 0~24V two sets of continually adjustable
9. Function signal generator sine wave, triangle wave, square wave output
15 Hz~100KHz of frequency continuously adjustable
range 07VPP, measuring scope 1 Hz~300KHz
10. Single pulse source positive and negative pulse
11. Audio power amplifier adjustable volume
III. Practice Training Content
1. Practical Training Example
1.1 input and output characteristics of transistor triode
1.2 low-frequency small-signal amplifier circuit experiment
1.3 influent of negative feedback on amplifier performance
1.4 research on differential amplifier
1.5 unijunction transistor trigger circuit
1.6 single-phase bridge rectifier and filtering circuit experiment
1.7 series steady voltage circuit
1.8 sine wave oscillator
1.9 application of 555 time-base circuit
1.10 count decoding display experiment
2. Basic circuit of diode and triode
2.1 forward characteristics of diode
2.2 reverse of characteristics of diode
2.3 current amplification test of triode
2.4 common emitter circuit
2.5 light-emitting diode experiment
2.6 load single-stage small signal voltage amplification
2.7 analysis of influence of Ce on low frequency
2.8 voltage feedback bias circuit
2.9 voltage current negative feedback bias circuit
2.10 working point circuit stability by thermal resistor
2.11 working point stability by diode
2.12 common base amplifier circuit
2.13 common collector amplifier circuit
2.14 FET test circuit
2.15 common source basic amplifying circuit
2.16 junction special effects amplifier
2.17 FET pressure self-bias circuit of divided voltage
2.18 FET common drain circuit
2.19 FET common grid circuit
2.20 bipolar resistance-capacitance coupling amplification circuit
2.21 single transistor resistance-capacitance amplification experiment circuit
2.22 Direct-coupled amplifier
2.23 resistance-capacitance coupling circuit
2.24 circuit increase by resistance
2.25 emitter follower enhancement with negative emitter potential
2.26 emitter potential increased by regulator tube
2.27 transformer coupled amplifier
2.28 A power amplifier
2.29 B power amplifier
2.30 series current negative feedback circuit
2.31 series voltage negative feedback circuit
2.32 parallel voltage negative feedback circuit
2.33 parallel current negative feedback circuit
2.34 common base and emitter amplifier
2.35 bootstrap emitter amplifying circuit
2.36 emitter output circuit
2.37 high-frequency voltage decayed by capacitance
2.38 NPN-PNP direct-coupling amplifier
2.39 FET transistor amplifier
2.40 self-excited oscillation elimination by negative feedback
2.41 application of negative feedback in magnetic head amplifier
2.42 transistor switch role
3.
3.1 RC phase-shifting oscillator circuit
3.2 RC bridge oscillation circuit
3.3 Double T frequency selection network circuit
3.4 transformer feedback oscillation circuit
3.5 capacitance three-point oscillation circuit
3.6 inductance oscillator circuit
3.7 series quartz crystal oscillator circuit
4. Amplification of DC coupling and integrated computation
4.1 basic formation of differential amplifier circuit
4.2 Elliot differential amplifier circuit
4.3 3-pipe OTL complementary symmetry circuit
4.4 4-pipe OTL complementary push-pull dynamic rate amplifier
4.5 differential input single output
4.6 differential input double output
4.7 single input single output
4.8 double power Elliot differential amplifier
4.9 differential amplifier with constant current source
4.10 integrated power amplifier
4.11 reverse phase operation basic circuit
4.12 operational AC proportional amplifying
4.13 Vos simple measurement
4.14 Ib simple measurement
4.15 Ios simple measuring
4.16 CMRR simple measurement
4.17 Vicm simple measurement
4.18 Aod simple measurement
4.19 vopp simple measurement
4.20 simple measurement of cross section SR
4.21 reverted phase assisted zero measure
4.22 same phase assisted zero measure
4.23 same phase input summation operation
4.24 in-phase amplifying connection method
4.25 ISO temperature realization making use of base current of triode
4.26 reversed input protection measure
4.27 rectification measure for capacitance load
4.28 expanding output current measure
4.29 in-phase input protection measure
4.30 protective measure making use of regulator tube
4.31 protection for the wrong connection of power polarity
4.32 RC high pass circuit
4.33 sensor turns physical quantity into electricity through bridge
4.34 silicon photodiode diode amplifier
4.35 device protection by regulator
4.36 RP computing basic circuit
4.37 transient over-voltage protection of power start
4.38 in-phase operation circuit
4.39 differential input operation circuit
4.40 adjustable gain differential operation circuit
4.41 RP-input summation operation
4.42 rectification measure for load capacitance
4.43 double input summation operation
4.44 basic integral circuit
Technology Electronic Experiment training equipment
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Company Info
Zhejiang Baicaoyuan Electronic Shareholding Co., Ltd.
[China]
[Verified Member]
City: Wenzhou
Province/State: Zhejiang
Country/Region : China
Business Type:Manufacturer
Online Postings: Products