Friday, March 6, 2015

Circuit Diagram Zener Diode Tester using 555 IC

Robotronicdiagram. - There are many application of 555 IC. In here also Circuit Diagram Zener Diode Tester using 555 IC like in figure 1 below. Diodes whose reverse-breakdown characteristics are controlled precisely during manufacture are called as Zener diodes and are intended specifically for operation in the reverse breakdown mode primarily as inexpensive voltage references. An uncomplicated circuit application of a ZD is the common shunt voltage regulator. If you have a Zener diode (ZD) of unknown characteristics or if you want to use reverse-biased transistor junctions as ZD, the zener voltage and performance can be tested with this simple circuit. This battery operated compact circuit can be made in a small plastic case with two crocodile clip leads as test probes. The built-in Digital DC Voltmeter (DVM) module obviates the requirement of an extra voltmeter/multimeter. The DVM reads the voltage drop across the device under test. This circuit is suitable for testing of ZD up to 30V rating, if test current is tailored accordingly.

Circuit Diagram

Figure 1. Circuit Diagram Zener Diode Tester using 555 IC(Source: www.electroschematics.com)
Component List

  • U1: NE555N IC
  • Q1: P55NF0 Power Mosfet
  • D1, D3: 1N5819 Schottky Diode ( 1A/40V)
  • D2: 1N4752 Zener Diode ( 33V/1W)
  • L1: 10µH Inductor (200mA)
  • LED1: 5mm Red
  • R1, R4: 1K ¼ w
  • R2: 10K ¼ w
  • R3: 2K7 ¼ w (see text)
  • C1: 1nF
  • C2: 10nF
  • C3: 100µF/63V
  • C4: 470µF/25V
  • DVM: 3-Wire Digital Voltmeter Module (DVM) / available at eBay!
  • S1: SPST Toggle Switch (N/O)
  • S2: SPST Push Switch (N/O)
  • BATT: 6V (1.5V x 4)

Description

Circuit diagram like in figure 1 above is Circuit Diagram Zener Diode Tester using 555 IC. The zener tester circuit is a simple dc-dc boost converter designed around the most common IC – the 555 chip. The 555 IC (U1) is wired as an astable oscillator at a frequency (around 68KHz) determined by RC components (R1, R2 and C1). U1′s output directly drives a power mosfet (Q1) that switches the current through power inductor (L1). Diode D1 and capacitor C3 forms the output rectifier and filter circuit. If possible, try to replace D1 with a UF4001 fast diode for better efficiency. Zener diode D2 sets the output voltage to near 33V, and resistor R3 is the ballast resistor for limiting test current through the device under test. Please read more from the original article here.


Thank you for your coming here in www.robotronicdiagram.com, we hope the article above will help you to know more about your information in electronic circuit design and other in this time. Please comment here when you want to share and other. Thank you.




0 comments:

Post a Comment

Let's share your idea with comment here