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Oscillator

Owing to our expertise in this domain, we manufacture and supply Oscillators that are highly result oriented and known for their performance and accuracy. We check the quality of these products at various stages to ensure only flawless range is delivered to customers. The specifications of our gamut is as following:

Frequency range : 1hz to 1 mhz in 6 decade range
Dial accuracy : 3% of range
Wave from : sine & square wave
Output voltage : sine wave 0-10v in 3 decade step of 10v iv & 0
Iv with consciously variable control
Square wave 0-15v p/p continuously variable
Sine wave distortion: less than 0. 5% from 100hz to 100khz
Square wave rise time : less than 100 nano seconds at maximum output
Square wave symmetry : duty factor variable from 0% to 80%
Output impedance : 600 ohm 5%. Power : 230v ac

Wien Bridge Oscillator Opamp Version

Objective:

To construct the wien bridge oscillator.
to determine the resistor ratio which is required to generate the degenerative feedback
By varying the r and c value in the bridge network and observe the changes in frequency.

Technical Specification :

Built in power supply : 15V- 0-15V AC
Mains : 230V AC
Dimension : 27CMS X 17CMS [metal cabinet]
Weight : 2KGS APPX

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Osc Oscillator

The Types of Oscillators are:

Blocking Oscillator
Beat Frequency Oscillator
Colpitts Oscillator
Crystal Oscillator
Clapp Oscillator
Hartley oscillator
Phase Shift Oscillator
Pierce Oscillator
Twin T Oscillator
Transistor Wien Bridge Oscillator
Voltage Controlled Oscillator
Wein Bridge Oscillator Opamp version
Function Generator 0.2HZ-2MHZ[Digital]

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AF Oscillator

AF Oscillator :

20 Hz to 200 K Hz in four bands Sine and square wave with output level meter 0-10 VP.-P.
output impedance 600 ohms.

Function Generator solid state :

1 Hz to 100 K Hz in five bands Sine square and triangular wave with out variable from 0-20 volt P-P.
Accuracy + 3% output impedance 50 ohms.

R.F. Oscillator :

Variable 100 KHz to 30 MHz giving modulated output & continuous wave from The Modulation frequency 400 Hz.
And is also available on output terminals.
Modulation depth 30% Accuracy + 2%

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Transistor Wien Bridge Oscillator

Objective:

To construct the wien bridge oscillator using two stage RC coupled amplifier
First stage introduces a phase shift of 180.deg and in the second stage it produces the output of 360.degree
Here both positive and negative feedback is used
Negative feed back is used for the stability of the oscillator

Technical Specification :

Built in power supply : +15V DC
Mains : 230V AC
Dimension : 27CMS X 17CMS [metal cabinet]
Weight : 2KGS APPX

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Twin T Oscillator

Objective:

To construct the twin t oscillator
This oscillator attenuates the frequency near the oscillator frequency
An op amp is used as an amplifier to amplify the oscillator frequency

Technical Specification :

Built in power supply : +12V & -12V DC
Mains : 230V AC
Dimension : 27CMS X 17CMS [metal cabinet]
Weight : 2KGS APPX

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Pierce Oscillator

Objective:

To construct and verify the pierce oscillator
To verify the series and the parallel resonance frequency
To determine the oscillator stability

Technical Specification :

Built in power supply : +15V DC
Mains : 230V AC
Dimension : 27CMS X 17CMS [metal cabinet]
Weight : 2KGS APP

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Phase Shift Oscillator

Objective:

To construct the rc phase shift oscillator
To observe the phase difference in the phase shift network
Phase shift oscillator provides phase difference by 60 degree and phase difference is varied up to 360 degree
This oscillator is used as the fixed frequency oscillator

Technical Specification :

Built in power supply : +15V DC
Mains : 230V AC
Dimension : 27CMS X 17CMS [metal cabinet]
Weight : 2KGS APPX

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Hartley Oscillator

Objective:

To construct the hartley oscillator
The frequency can be varied by selecting the component value
Hartley oscillator provides large of frequencies

Technical Specification :

Built in power supply : +15V DC
Mains : 230V AC
Dimension : 27CMS X 17CMS [metal cabinet]
Weight : 2KGS APPX

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Clapp Oscillator

Objective:

To construct clap oscillator
To determine the frequency of the oscillation
By varying the capacitor value you can observe the change in frequency

Technical Specification :

Built in power supply : +9V DC
Mains : 230V AC
Dimension : 27CMS X 17CMS [metal cabinet]
Weight : 2KGS APPX

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Crystal Oscillator

Objective:

To demonstrate the working principle of crystal oscillator
To determine its frequency which is determined the piezo quartz crystal
The l-c network is provided by crystal
To know whether any harmonics frequencies are generated.

Technical Specification :

Built in power supply : +15V DC
Mains: 230V AC
Dimension : 27CMS X 17CMS [metal cabinet]
Weight : 2KGS APPX

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Colpitts Oscillator

Objective:

To demonstrate the working principle of Colpitts oscillator
To determine the frequency of the oscillator which is a fixed value in this oscillator?
To know whether any harmonics frequencies are generated.

Technical Specification :

Built in power supply : +15V DC
Technical Specification : 230V AC
Dimension : 27CMS X 17CMS [metal cabinet]
Weight : 2KGS APPX

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Beat Frequency Oscillator

Objective:

To construct the beat frequency oscillator
Here two frequencies FX and FY are the two frequencies given to the oscillator
The oscillator produces the difference in frequency as the output
The output is given to the loud speaker

Technical Specification :

Built in power supply : +15V & -15V DC
Mains : 230V AC
Dimension : 27CMS X 17CMS [metal cabinet]
Weight : 2KGS APPX

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Blocking Oscillator

Objective:

To construct the blocking oscillator
To observe the saw tooth and the sync pulse at the different points
The frequency can be varied by selecting the different values of the capacitor

Technical Specification :

Built in power supply : +15V DC
Mains : 230V AC
Dimension : 27CMS X 17CMS [metal cabinet]
Weight : 2KGS APPX.

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Service Oscillator

Product: Service Oscillator
Frequency range: 1000HZ to 30MHZ
Outputs: AF output & RF output
AF output: Square Output Upto 18khz
RF output: Normal / Mod. Outputs
Frequency steps: in steps of 5 [A, B, C, D, E]
Output indications: Analog Dial Indications
Output terminal: BNC cable
Power: 230V AC mains
Cabinet: Metal Finish
Accessories: probe with one end crocodile clip
Dimension: 35CMS X 25CMS X10CMS

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Our Product Range

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Transfer Function Of Simple Network Measurement

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Switch Mode Power Supply (SMPS)

Low Voltage Regulated Power Supply Using IC 723

IC Regulated Power Supply

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DC- DC Converter

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Oscillator

Wien Bridge Oscillator Opamp Version

Osc Oscillator

AF Oscillator

Transistor Wien Bridge Oscillator

Twin T Oscillator

Pierce Oscillator

Phase Shift Oscillator

Beat Frequency Oscillator

Blocking Oscillator

Service Oscillator

Data Communications & Networks

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Principle of Modulation to Real Signal

Effect of Line Resistance

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2 Wire Thermistor in Op Amp Circuit

Transistor As Temperature Sensor

LDR As An Optical Sensor

2 Wire Thermistor in A Wheat Stone Bridge Circuit

3 Wire RTD in Using DC Wheat Stones Bridge Circuit

2 Wire RTS in A Potentiometer Circuit

Closed Loop Motor Speed Control

Open Loop Motor Speed Control

Operational Amplifier

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Phase Lock Loop

Voltage Controlled Oscillator (VCO) Using Pll

Phase Detection & Measurement Using Pll

Phase Lock Loop Frequency Multiplier & Synthesizer

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Radio Receiver Circuit

SCR Alarm Circuit

Phase Discriminator

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PRE Emphasis and De Emphasis Circuits Testing Method

Amplifier Alignment and Testing Methods

Frequency Mixer Stage Alignment and Testing Methods

Crossover Frequency N/W for Loud Speaker

Frequency Response of Passive Filters

Frequency Counter

Modulator

Type Attenuators Devices

T Type Attenuators Devices

M Derived Band Pass Filter (Passive)

M Derived High Pass Filter (Passive)

M Derived Low Pass Filter (Passive)

Equaliser Frequency Response Testing

Constant K Type Band Pass Filters (Passive Type)

Constant K Type Low Pass Filters (Passive Type)

Composite Band Pass Filter Passive

Composite High Pass Filter Passive

Composite Low Pass Filter Passive

PF5 Constant K Type High Pass Filters (Passive Type)

Analogue Electronics Trainers

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4 Bit Binary Universal Shift Register

Decoder

Digital To Analog Converter Weighted Resistor

Digital To Analog Converter R-2R

XOR Using Nor Gate

XOR Using Nand Gate

Binary to BCD Converter

BCD to Binary Converter

Parity Generator

Divide By Ten Counter Using 7490

Square Wave Generator & Divide By Circuit Using 7473

RS/D Flip Flop Using Nand Gate

CMOS to Lamp Interface

Interfacing TTL Drivers to Lamp

Interfacing TTL Drivers to LED

Counter Display Using Memory Register

BCD to Decimal Converter

Gray to Binary & Binary to Gray

Programmable Logic Array

Programmable Array Logic

Recirculating Shift Register

1 of 4 Decoder

Left/ Right Shift Register

Logic Module

4 Digit Multiplexed Display Using 74C 926

Comparing The 4001 to 7402 IC

Memory Programming

Dual Nature Logic Gates

Analog Clock

Basic Discrete Flip Flop

555 Timer Circuits and Application

Digital to Analog Converter

Analog to Digital Converter

Crystal Controlled Clock Circuit

Alphanumeric 5x7 Dot Matrix Display

Study of Parity Circuits

Binary Multiplexer

Modulo N Counter N-2TO 9

Tri State Buffers & Bussing Technique

Read Only Memory

Random Access Memory (16 Word of 4 Bits)

4 Bit Binary Full Adder & Subtractor

Open Collector Gates & Wired or Connections

Arithmetic Logic Unit Demonstrator Using 74181 IC

C-Mos Integrated Circuits

4 Line To 16 Line Demultiplexer

16 Lines to 1 Line Multiplexer

Decade Counter Decoder Driver & 7 Segment Display

Excess 3 to Decimal Converter

BCD To 7 Segment Decoder & BCD to 7 Segment Decoder

BCD To Decimal Converter Using Nixie Tube

Nand Gate Encoder

Decimal to Binary Encoder

Master Slave Jk Flip Flop Using Nand Gates

Quadruple Jk Flip With Preset & Clear Using 7476

R- S /D /T Flip Flop Devices and Comparisontics

Exclusive or and Nor Gates, Half Adder & Full Subtractor

Nand Nor Inverter Gates

Basic Logic Gates (Using Diode & Transistors)

Bit Binary Up Down Counter Using 74192(Synchronous Counter)

Different Types Of Jk Flip Flop Triggering Method

Pulse Generator Using 5369 Crystal For Output Of 60 HZ

Electronic Devices

Amplitude Modulation & Demodulation

Pattern Generator

Phase Modulation & Demodulation

Rota Meter

SCR Speed Control

Series Resonance

Single Phase Fully Controlled Rectifier

Electronic Communications

Pulse Code Modulation & Demodulation

Pulse Position Modulation & Demodulation

Pulse Width Modulation & Demodulation

Pulse Amplitude Modulation & Demodulation

Electronic Communications

Time Division Multiplexer

Suppressed Carrier Double Side Band

Phase Modulation

FSK Transmitter Modulator

Frequency Modulation & Demodulation

Balanced Modulator (Double & Single Side Band)

Amplitude Modulation & Demodulation

Advance Communication Trainers

Telephone System Trainer

Digital Modulation Techniques

Single Side Band Modulation & Demodulation

Sampling & Reconstruction Trainer

Adaptive Delta Modulation & Demodulation

Differential Phase Shift Keying Modulation

Phase Shift Keying Modulation & Demodulation

Amplitude Shift Keying Modulation & Demodulation

Frequency Modulator

Phase Modulation & Demodulation

Time Division Multiplexing and DE- Multiplexing

Double Side Band Modulator and Demodulator

DPCM Differential Pulse Code Modulation & Demodulation

TDM-PAM Two Channel Circuit

Multivibrator & Timer Circuits

Analogue & Digital Communication Trainers

Analogue & Digital Communication Trainer

New Trainers

Instrumentation Trainer Using Transducer

Delta Modulation and Demodulation

Transmission Line Demonstrator

Digital System Trainer

Electronic Work Station

VT R Voice Transmitter/Receiver Using Fibre Optic Cable

FOC Fibre Optics Educational Communication Kit

Am Transmitter Trainer

Cordless Telephone System Trainer

TV Demonstrator

Colour Television Dynamic Demonstrator

Black and White TV Dynamic Demonstrator

Test & Measuring Instruments

Function Generator 3MHZ

Microwave Lab

Tee to Study The Magic Tee

Measurement of Polar Pattern

Gunn Diode

Klystron Tube

Measurement Of Dielectric Constant Of Liquids And Solids

OP AMP Devices

Op Amp Devices

AM Receiver

Amplitude Modulation And Demodulation

Log And Antilog Amplifier

Maxwell With Meter

Peak Detector

Pressure Gauge Transducer

Process Simulator

Stepper Motor Interface With PC

Thermistor Devices

TRAIC Devices

TRIAC Devices

Trainer On Thermal Transducers

Unijunction Transistors

Microcontroller

8051 Microcontroller

Tape Recorder Demonstrator

Digital Storage Oscilloscope

Facsimile Dynamic Demonstrator

Function Generator

VCR Dynamic Demonstrator

Transmitter and Receivers

FM Transmitter And Receiver Circuits

Ask Transmitter And Receiver

PSK Transmitter And Receiver

FSK Transmitter And Receiver

Ohm Technologiees
Mr. Vijayarajan K. (Proprietor)
No. 9/243, Plot No. 1 - D - 1, Sree Vijayalakshmi Nagar, Ambal Nagar, Koovor
Chennai - 600122, Tamil Nadu, India

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