ELECTRONIC WORK BENCH – I
MAKE DINESH SCIENTIFIC
DESCRIPTION:
An electronic workbench is a specialized workspace designed for individuals, technicians, or engineers involved in electronic and electrical projects. It provides a dedicated and organized environment for assembling, testing, troubleshooting, and repairing electronic components and devices. Here’s a general description of the key components and features typically found in an electronic workbench:
WORK SURFACE:
- The work surface is typically a sturdy and spacious tabletop that accommodates electronic components, circuit boards, and various tools.
- have an ESD (Electrostatic Discharge) protective surface to prevent damage to sensitive electronic components.
STORAGE AND ORGANIZATION:
- Shelves, drawers, and cabinets are integrated into the workbench to provide storage for tools, components, and equipment.
- A pegboard or tool rack may be included for easy access to frequently used tools.
POWER OUTLETS AND DISTRIBUTION:
- Multiple power outlets are usually integrated into the workbench, providing easy access to electrical power for soldering irons, oscilloscopes, and other tools.
- Some electronic workbenches may include a power distribution system for efficient management of multiple devices.
LIGHTING:
- Adequate lighting is essential for precision work. Adjustable LED lights or fluorescent lamps are commonly incorporated to illuminate the work area effectively.
INSTRUMENTATION:
- Depending on the application, an electronic workbench may feature built-in instruments like oscilloscopes, multimeters, function generators, or other test and measurement devices.
CIRCUIT DESIGN:
- Electronic Workbench provides a user-friendly environment for designing and drawing electronic circuits. Users can create schematic diagrams representing various components and their connections.
APPLICATION:
- Students access to an integrated workbench with instrument panels and a working table so they can learn and conduct a variety of experiments connected to electronics and electrical subjects. The instruments installed in the panel so that only the front panel and the required connections are readily usable, and they internally electrically connected. The framework consist of CRC powder-coated pipes that are 1.5 mm thick, with a top layer composed of premium 19 mm thick plywood and covered in 1.8 mm off-white mica. A 2 mm thick antistatic mat placed over the bench working area to assist students in controlling static discharge, as static can interfere with or harm all accessories, equipment, and students.
FEATURES OF THE ELECTRONICS WORK BENCH:
- Workbench supply comes with a single user software module for teaching and learning in the laboratory or classroom about digital electronics, microprocessor labs, and embedded labs. It has the following features:
- Content created with platforms like visual basic, dot net, flash, and others that is helpful in understanding the fundamental ideas of digital electronics. The software include interactive learning objects, faqs, mcqs, videos, graphs, charts, simulations, and animations in addition to the required rich content and theory to comprehend basic concepts.
TECHNICAL DATA:
| MODEL | DS-EWB-1201 |
| STRUCTURE AND DESIGN OF WORK BENCH | |
| Structure Material | 1.5 mm thick CRC powder-coated pipes |
| MS Panel Strip | Below the instrument housing for additional housing support |
| Workbench Top | 19 mm thick plywood covered with 1.8 mm mica |
| Basic Structure | 38 x 38 x 1.5 mm CRC powder-coated pipes |
| Instrument Housing | Depth: 500 mm from the side |
| Overall Dimensions | Width (W) = 1200 mm; Depth (D) = 750 mm; Height (H) = 1150 mm |
| Drawers (03 numbers) | Width (W) = 275 mm; Depth (D) = 375 mm; Height (H) = 100 mm; Thickness = 1.2 mm |
| Drawer Features | Handle and separate lock on each drawer |
| Panel Section | Raised back height of 1200 mm from the floor with matching height support |
| Included Accessories | Power cable, Probes, Instruction manual |
| DIGITAL ELECTRONICS LAB: | |
| Number Systems | Binary, Octal, Decimal, Hexadecimal |
| Combinational Circuits | Multiplexer, Demultiplexer, Encoder, Decoder |
| Complements | 1’s Complement, 2’s Complement |
| Boolean Algebra | Boolean Operations, Laws of Boolean Algebra |
| Logic Gates | AND, OR, NOT, NAND, NOR, XOR, XNOR |
| Arithmetic Circuits | Adder, Subtracter |
| Codes | BCD (Binary Coded Decimal), Gray Code |
| Sequential Circuits (Flip-Flops) | S-R Flip-Flop, D Flip-Flop, J-K Flip-Flop, T Flip-Flop |
| Registers and Counters | Shift Registers, Ripple Counters, Synchronous Counters |
| DIGITAL IC TESTER | |
| Supported ICs for Testing | 74 Series, 40/45 Series of CMOS ICs, Microprocessor 8085, 8086, Z80, Peripherals like 8255, 8279, 8253, 8259, 8251, 8155, 6264, 62256, 8288, 8284 |
| Structure | Bench top, plastic chassis |
| Operating Temperature | 0°C~+40°C |
| Power Consumption | 12VA |
| Operating Time | Turn off for 5 minutes after one-hour continuous running |
| Continuous Operating Conditions | Supply voltage: 230V, Ambient temperature: 25°C |
| Power Supply Voltage | 220V±10%, 50Hz |
| ELECTRICAL SOCKETS AND SWITCHES | |
| Two Pole MCB | Two Pole MCB – 32 |
| AMP. | RCCB40AMP |
| Mains Supply | Mains Supply – 230V AC, 50 Hz. |
| Socket provision with Switch (Modular) | 15 Amp. |
| Socket provision with Switch (Modular) | 5 Amp. |
| 5 1/2 DIGIT DIGITAL MULTI METER | |
| Voltage Range (DC) | 200mV to 1000V |
| Sensor Measurement | DCV, DCI, Frequency, 2 WR, 4 WR, TC |
| Voltage Range (AC) | 200mV to 750V |
| Current Range (AC/DC) | 200uA to 10A |
| Math Functions | Max, Min, Average, Standard Deviation, Pass/Fail, dBm, dB, Relative Measurement, Histogram |
| Pass/Fail Test Feature | Available |
| SINGLE PHASE VARIAC (10AMP): | |
| Type | Close Type |
| Operating Rating | 230V AC +10%, 50Hz |
| Output Voltage | 0 – 270V AC +10%, 50Hz |
| EMBEDDED LAB | |
| Embedded System Basics | Definition, Characteristics, Architecture, Applications |
| 8051 Peripheral Interfacing | Switch Interface, Seven Segment Display Interface, LED Interface, LCD Interface |
| Embedded System Categories | Stand Alone Embedded System, Real-Time Embedded System, Network Information Appliances, Mobile Devices |
| Digital Primer and Components | Numbering and Coding System, Digital Gates, Basic Components – Transistor, Diode, Resistance, Capacitance, Seven Segment Display, Power Supply |
| 8051 Microcontroller | Microcontroller, Architecture, Features, 8051 Pinout and Details, Registers and SFR, Memory Map, Instruction Set, Addressing Mode, Timer and Counters, Interrupts, Serial Communication |
| MULTIPLE DC POWER SUPPLY | |
| DC Output | 0-32 V, 2 Amp (continuously variable by means of Coarse and Fine controls) <br> 5 V, 5 Amp (4 V – 6 V) <br> 0 – ±15 V, 1 Amp (Dual tracking) |
| LED Indication | For voltage and current |
| Resolution | Voltage: 10 mV <br> Current: 10 mA |
| Load Regulation | ± (0.05% + 100 mV) |
| Line Regulation | ± (0.05% + 100 mV) |
| Over Range Indication | Available |
| Display | 3 digits for voltage and current |
| Ripple and Noise | < 1mVrms |
ELECTRONIC WORK BENCH -II
MAKE DINESH SCIENTIFIC
DESCRIPTION:
An electronic workbench is a specialized workspace designed for individuals, technicians, or engineers involved in electronic and electrical projects. It provides a dedicated and organized environment for assembling, testing, troubleshooting, and repairing electronic components and devices. Here’s a general description of the key components and features typically found in an electronic workbench:
WORK SURFACE:
- The work surface is typically a sturdy and spacious tabletop that accommodates electronic components, circuit boards, and various tools.
- have an ESD (Electrostatic Discharge) protective surface to prevent damage to sensitive electronic components.
STORAGE AND ORGANIZATION:
- Shelves, drawers, and cabinets are integrated into the workbench to provide storage for tools, components, and equipment.
- A pegboard or tool rack may be included for easy access to frequently used tools.
POWER OUTLETS AND DISTRIBUTION:
- Multiple power outlets are usually integrated into the workbench, providing easy access to electrical power for soldering irons, oscilloscopes, and other tools.
- Some electronic workbenches may include a power distribution system for efficient management of multiple devices.
LIGHTING:
- Adequate lighting is essential for precision work. Adjustable LED lights or fluorescent lamps are commonly incorporated to illuminate the work area effectively.
INSTRUMENTATION:
- Depending on the application, an electronic workbench may feature built-in instruments like oscilloscopes, multimeters, function generators, or other test and measurement devices.
CIRCUIT DESIGN:
- Electronic Workbench provides a user-friendly environment for designing and drawing electronic circuits. Users can create schematic diagrams representing various components and their connections.
APPLICATION:
- Workbench configurations include blended learning software with 20,000 component libraries pre-installed. Turn on the construction circuit and do various input condition tests on it. It ought able to create and evaluate digital, mixed, analog, and other systems. compatible with PCB design and capable of producing Gerber files and G code. All of the key hardware description languages, such as VHDL, Verilog, Verilog A, Verilog AMS, and System, covered. Additionally, a classroom, lab, learning center, and teaching module on basic electronics included in the setup. includes topics including circuit analysis, voltage divider and current divider circuits, series and parallel circuits, and electronic components.
TECHNICAL DATA:
| MODEL | DS-EWB-1202 |
| STRUCTURE AND DESIGN OF WORK BENCH | |
| Structure Material | 1.5 mm thick CRC powder-coated pipes |
| MS Panel Strip | Below the instrument housing for additional housing support |
| Workbench Top | 19 mm thick plywood covered with 1.8 mm mica |
| Basic Structure | 38 x 38 x 1.5 mm CRC powder-coated pipes |
| Instrument Housing | Depth: 500 mm from the side |
| Overall Dimensions | Width (W) = 1200 mm; Depth (D) = 750 mm; Height (H) = 1150 mm |
| Drawers (03 numbers) | Width (W) = 275 mm; Depth (D) = 375 mm; Height (H) = 100 mm; Thickness = 1.2 mm |
| Drawer Features | Handle and separate lock on each drawer |
| Panel Section | Raised back height of 1200 mm from the floor with matching height support |
| Included Accessories | Power cable, Probes, Instruction manual |
| 4 1/2 DIGIT DIGITAL MULTI METER | |
| Voltage Range (DC) | 200mV to 1000V |
| Sensor Measurement | DCV, DCI, Frequency, 2 WR, 4 WR, TC |
| Voltage Range (AC) | 200mV to 750V |
| Current Range (AC/DC) | 200uA to 10A |
| Math Functions | Max, Min, Average, Standard Deviation, Pass/Fail, dBm, dB, Relative Measurement, Histogram |
| Pass/Fail Test Feature | Available |
| ELECTRICAL SOCKETS AND SWITCHES | |
| Two Pole MCB | Two Pole MCB – 32 |
| AMP. | RCCB40AMP |
| Mains Supply | Mains Supply – 230V AC, 50 Hz. |
| Socket provision with Switch (Modular) | 15 Amp. |
| Socket provision with Switch (Modular) | 5 Amp. |
| 25 MHz, TWO CHANNEL ARBITRARY FUNCTION GENERATOR | |
| ARBITRARY FUNCTION GENERATOR: | Generator featuring a minimum built-in waveform of 150, a sampling rate of 125 MSa/s, 16 bits of vertical resolution, a 7-digit 240MHz frequency counter, an 8-meter record length, a minimum 8th order harmonic generator, and a 4.3-inch touch screen display. |
| SOLDERING AND DESOLDERING STATION | |
| Soldering Operation | · Power Consumption: 60W
· Input Voltage: 170-270V · Temperature Range:180-270°C · Temperature accuracy: ±1°C |
| Desoldering Operation | · Power Consumption: 70W
· Input Voltage: 170-270V · Temperature Range: 180-480°C |
| 100 MHz 2 CHANNEL DIGITAL STORAGE OSCILLOSCOPE | |
| Digital Storage Oscilloscope (DSO) | · Sampling Rate: 1 GSa/s (single-channel), 500 MSa/s (dual-channel)
· Memory Depth: 20 Mpts (single-channel), 10 Mpts (dual-channel) · Horizontal Range: 2 ns/div to 50 s/div · Vertical Range: 500 uV/div to 10 V/div · Vertical Resolution: 8 bits · Math Functions: A+B, A-B, A*B, A/B, FFT, AaB, A · FFT Window: Rectangle, Hanning, Blackman, Hamming, Flat Top, Triangle · FFT Display: Half, Full · Filters: Low Pass, High Pass, Band Pass, Band Stop |
| Display | 7.0-inch TFT LCD |
| Connectivity | USB Host, USB Device, LAN |
| Component Tester | · Diode and Transistor Testing: Short Circuit, Open Circuit, Polarity Testing.
· Comparative Test for Troubleshooting Electronic Circuits |
ELECTRONIC WORK BENCH – III
MAKE DINESH SCIENTIFIC
DESCRIPTION:
An electronic workbench is a specialized workspace designed for individuals, technicians, or engineers involved in electronic and electrical projects. It provides a dedicated and organized environment for assembling, testing, troubleshooting, and repairing electronic components and devices. Here’s a general description of the key components and features typically found in an electronic workbench:
WORK SURFACE:
- The work surface is typically a sturdy and spacious tabletop that accommodates electronic components, circuit boards, and various tools.
- have an ESD (Electrostatic Discharge) protective surface to prevent damage to sensitive electronic components.
STORAGE AND ORGANIZATION:
- Shelves, drawers, and cabinets are integrated into the workbench to provide storage for tools, components, and equipment.
- A pegboard or tool rack may be included for easy access to frequently used tools.
POWER OUTLETS AND DISTRIBUTION:
- Multiple power outlets are usually integrated into the workbench, providing easy access to electrical power for soldering irons, oscilloscopes, and other tools.
- Some electronic workbenches may include a power distribution system for efficient management of multiple devices.
LIGHTING:
- Adequate lighting is essential for precision work. Adjustable LED lights or fluorescent lamps are commonly incorporated to illuminate the work area effectively.
INSTRUMENTATION:
- Depending on the application, an electronic workbench may feature built-in instruments like oscilloscopes, multimeters, function generators, or other test and measurement devices.
CIRCUIT DESIGN:
- Electronic Workbench provides a user-friendly environment for designing and drawing electronic circuits. Users can create schematic diagrams representing various components and their connections.
APPLICATION:
- Workbench configurations include blended learning software with 20,000 component libraries pre-installed. Turn on the construction circuit and do various input condition tests on it. It ought able to create and evaluate digital, mixed, analog, and other systems. compatible with PCB design and capable of producing Gerber files and G code. All of the key hardware description languages, such as VHDL, Verilog, Verilog A, Verilog AMS, and System, covered. Additionally, a classroom, lab, learning center, and teaching module on basic electronics included in the setup. includes topics including circuit analysis, voltage divider and current divider circuits, series and parallel circuits, and electronic components.
TECHNICAL DATA:
| MODEL | DS-EWB-1203 |
| STRUCTURE AND DESIGN OF WORK BENCH | |
| Structure Material | 1.5 mm thick CRC powder-coated pipes. |
| MS Panel Strip | Below the instrument housing for additional housing support |
| Workbench Top | 19 mm thick plywood covered with 1.8 mm mica. |
| Basic Structure | 38 x 38 x 1.5 mm CRC powder-coated pipes |
| Instrument Housing | Depth: 500 mm from the side |
| Overall Dimensions | Width (W) = 1200 mm; Depth (D) = 750 mm; Height (H) = 1150 mm |
| Drawers (03 numbers) | Width (W) = 275 mm; Depth (D) = 375 mm; Height (H) = 100 mm; Thickness = 1.2 mm |
| Drawer Features | Handle and separate lock on each drawer |
| Panel Section | Raised back height of 1200 mm from the floor with matching height support |
| Included Accessories | Power cable, Probes, Instruction manual |
| ELECTRICAL SOCKETS AND SWITCHES FOR EXTRNAL USE: | |
| Two Pole MCB | Two Pole MCB – 32 |
| AMP. | RCCB40AMP |
| Mains Supply | Mains Supply – 230V AC, 50 Hz. |
| Socket provision with Switch (Modular) | 15 Amp. |
| Socket provision with Switch (Modular) | 5 Amp. |
| 25 MHz, TWO CHANNEL ARBITRARY FUNCTION GENERATOR | |
| ARBITRARY FUNCTION GENERATOR: | Generator featuring a minimum built-in waveform of 150, a sampling rate of 125 MSa/s, 16 bits of vertical resolution, a 7-digit 240MHz frequency counter, an 8-meter record length, a minimum 8th order harmonic generator, and a 4.3-inch touch screen display. |
| 100 MHz 2 CHANNEL DIGITAL STORAGE OSCILLOSCOPE | |
| Digital Storage Oscilloscope (DSO) | · Sampling Rate: 1 GSa/s (single-channel), 500 MSa/s (dual-channel)
· Memory Depth: 20 Mpts (single-channel), 10 Mpts (dual-channel) · Horizontal Range: 2 ns/div to 50 s/div · Vertical Range: 500 uV/div to 10 V/div · Vertical Resolution: 8 bits · Math Functions: A+B, A-B, A*B, A/B, FFT, AaB, A · FFT Window: Rectangle, Hanning, Blackman, Hamming, Flat Top, Triangle · FFT Display: Half, Full · Filters: Low Pass, High Pass, Band Pass, Band Stop |
| Display | 7.0-inch TFT LCD |
| Component Tester | · Diode and Transistor Testing: Short Circuit, Open Circuit, Polarity Testing.
Comparative Test for Troubleshooting Electronic Circuits |
| Connectivity | USB Host, USB Device, LAN |
| 4 1/2 DIGIT DIGITAL MULTI METER | |
| Voltage | DC Voltage: 1000V
AC Voltage: 750V |
| Resistance | 200Ω/2kΩ/20kΩ/200kΩ/2MΩ/20MΩ |
| Current | DC Current: 20mA/200mA/2A/20A
AC Current: 200mA/2A/20A |
| Other Measurements | Temperature, Continuity, Diode Testing |
| Frequency | 20 kHz/200 kHz |
| Capacitance | 20nF/2μF/200μF |
| DUAL DC POWER SUPPLY | |
| Pre-Regulator based design Floating DC Supply voltages Dual DC | Pre-regulator architecture DC Floating voltages supplied Two x 0 – 30 V/ 2 A dual DC Protection Against Automatic Overload Current Constant Current and Voltage Operation Voltage and Current Digital Display with Adjustable Current Limiter Superb Line and Load Control Minimal Voltage Ripple. |
ELECTRONIC WORK BENCH – IV
Make Dinesh Scientific
DESCRIPTION
An electronic workbench is a specialized workspace designed for individuals, technicians, or engineers involved in electronic and electrical projects. It provides a dedicated and organized environment for assembling, testing, troubleshooting, and repairing electronic components and devices. Here’s a general description of the key components and features typically found in an electronic workbench:
WORK SURFACE:
- The work surface is typically a sturdy and spacious tabletop that accommodates electronic components, circuit boards, and various tools.
- have an ESD (Electrostatic Discharge) protective surface to prevent damage to sensitive electronic components.
STORAGE AND ORGANIZATION:
- Shelves, drawers, and cabinets are integrated into the workbench to provide storage for tools, components, and equipment.
- A pegboard or tool rack may be included for easy access to frequently used tools.
- POWER OUTLETS AND DISTRIBUTION:
- Multiple power outlets are usually integrated into the workbench, providing easy access to electrical power for soldering irons, oscilloscopes, and other tools.
- Some electronic workbenches may include a power distribution system for efficient management of multiple devices.
LIGHTING:
- Adequate lighting is essential for precision work. Adjustable LED lights or fluorescent lamps are commonly incorporated to illuminate the work area effectively.
APPLICATION :
The Workbench included 20,000 component libraries into its blended learning software. Turn on the construction circuit and do various input condition tests on it. It is able to create and test Mixed, Digital, and Analog systems. ability to create g code and Gerber files, and supports PCB design. incorporate all significant Hardware Included are the following description languages: System, Verilog AMS, Verilog A, Verilog, and VHDL.
Additionally, the setup consists of a classroom, a lab, and a lean teaching content module on analog communication that covers topics like signal types, modulation tech, angle modulation, radio receivers, noise, and communication, which includes time division multiplexing, pulse code mor/demodulation, line codification and formatting, advanced digital modulation techniques, spread spectrum modulation, and sampling reconstruction.
TECHNICAL DETAILS:
| MODEL | DS-EWB-1204 |
| STRUCTURE AND DESIGN OF WORKBENCH : | |
| Structure Material | 1.5 mm thick CRC powder coated pipes |
| Top Material | 19 mm thick plywood covered with 1.8 mm mica |
| Basic Structure | 38 x 38 x 1.5 mm CRC powder coated pipes |
| Overall Dimensions | Width (W) = 1200 mm; Depth (D) = 750 mm; Height (H) = 1150 mm |
| Drawers | 3 MS drawers: Width (W) = 275 mm; Depth (D) = 375 mm; Height (H) = 100 mm; Thickness = 1.2 mm |
| Drawer Features | Handle and separate lock provided on each drawer |
| Panel Section | Raised back height of 1200 mm from floor with matching height support |
| Accessories | Supplied with Power cable, Probes, Instruction manual |
| Instrument Housing | Depth of 500 mm from the side; MS Panel strip below for housing |
| MULTIPLE DC POWER SUPPLY : | |
| DC Output | 0-32 V, 2 Amp (continuously variable by means of Coarse and Fine controls) <br> 5 V, 5 Amp (4 V – 6 V) <br> 0 – ±15 V, 1 Amp (Dual tracking) |
| LED Indication | For voltage and current |
| Resolution | Voltage: 10 mV <br> Current: 10 mA |
| Load Regulation | ± (0.05% + 100 mV) |
| Line Regulation | ± (0.05% + 100 mV) |
| Over Range Indication | Available |
| Display | 3 digits for voltage and current |
| Ripple and Noise | < 1mVrms |
| ELECTRICAL SOCKETS AND SWITCHES FOR EXTERNAL USE: | |
| Two Pole MCB | 32 AMP |
| Mains Supply | 230V AC, 50 Hz |
| RCCB | 40 AMP |
| 15 Amp. Socket provision with Switch | Modular |
| 5 Amp. Socket provision with Switch | Modular |
| 75 MHz MIXED SIGNAL OSCILLOSCOPE | |
| Bandwidth | 75 MHz |
| Analog Channels | 4 |
| Digital Channels | 16 |
| Real Time Sampling Rate | 1.25 GSa/s |
| Vertical Resolution | 12 bits |
| Vertical Sensitivity | Ranges from 200 picoVolts per Division to 10 Volts per Division |
| Memory Depth | 50 Million points |
| Waveform Capture Rate | 1 Million waveforms per second |
| Display | 7-inch Multi-Touch Screen |
| Additional Functionality | Component Tester: Capable of testing for short circuits, open circuits, and polarity; performs diode and transistor comparative tests for troubleshooting electronic circuits. |
| 4 1/2 DIGITAL MULTI METER : | |
| DC Voltage | 1000V |
| DC Current | 20mA/200mA/2A/20A |
| Frequency | 20 kHz/200 kHz |
| AC Current | 200mA/2A/20A |
| AC Voltage | 750V |
| Resistance | 200 ohms/2 kiloohms/20 kiloohms/200 kiloohms/2 megaohms/20 megaohms |
| Capacitance | 20 nanofarads/2 microfarads/200 millifarads |
| Other Features | Continuity and Diode Testing |
| Temperature | Not specified |
| 25 MHz ARBITRARY WAVEFORM GENERATOR : | |
| Frequency Range | Capable of generating waveforms 25 MHz |
| Sample Rate | Sampling rate of 125 Mega Samples per second |
| Vertical Resolution | Resolution of 16 bits |
| Frequency Counter | 240 MHz frequency counter with 7-digit display |
| Built-in Waveforms | Includes a of 150 pre-loaded waveforms |
| Record Length | Offers an 8 Mega-point record length |
| Harmonic Generator Order | Provides a 8th order harmonic generator |
| Display | Features a user-friendly 4.3-inch touchscreen |
| 3.2 GHZ SPECTRUM ANALYZER WITH TRACKING | |
| Frequency Range | 9 kHz to 3.2 GHz |
| DANL (Displayed Average Noise Level) | 161 dBm (typical) |
| Frequency Resolution | 1 Hz |
| Resolution Bandwidth | 10 Hz |
| Phase Noise | 98 dBc/Hz at a 10 kHz offset |
| Amplitude DANL | Can handle signals +20 dBm |
| Display | 8-inch WVGA display |
| Advanced Measurement Functions | Includes capabilities for Harmonic distortion, Tolerance, Emission bandwidth, Channel power, Occupied bandwidth, Time domain power, Carrier to Noise Ratio (CNR), Adjacent channel power, and Pass/Fail assessment |
| Other Features | Equipped with a Spectrum Analyzer and Tracking Generator |
ELECTRONIC WORK BENCH – V
Make Dinesh Scientific
DESCRIPTION
An electronic workbench is a specialized workspace designed for individuals, technicians, or engineers involved in electronic and electrical projects. It provides a dedicated and organized environment for assembling, testing, troubleshooting, and repairing electronic components and devices. Here’s a general description of the key components and features typically found in an electronic workbench:
WORK SURFACE:
- The work surface is typically a sturdy and spacious tabletop that accommodates electronic components, circuit boards, and various tools.
- have an ESD (Electrostatic Discharge) protective surface to prevent damage to sensitive electronic components.
STORAGE AND ORGANIZATION:
- Shelves, drawers, and cabinets are integrated into the workbench to provide storage for tools, components, and equipment.
- A pegboard or tool rack may be included for easy access to frequently used tools.
- POWER OUTLETS AND DISTRIBUTION:
- Multiple power outlets are usually integrated into the workbench, providing easy access to electrical power for soldering irons, oscilloscopes, and other tools.
- Some electronic workbenches may include a power distribution system for efficient management of multiple devices.
APPLICATION:
- Workbench configurations include blended learning software with 20,000 component libraries pre-installed. Turn on the construction circuit and do various input condition tests on it. It ought able to create and evaluate digital, mixed, analog, and other systems. compatible with PCB design and capable of producing Gerber files and G code. All of the key hardware description languages, such as VHDL, Verilog, Verilog A, Verilog AMS, and System, covered. Additionally, a classroom, lab, learning center, and teaching module on basic electronics included in the setup. includes topics including circuit analysis, voltage divider and current divider circuits, series and parallel circuits, and electronic components.
TECHNICAL DETAILS:
| MODEL | DS-EWB-1205 |
| STRUCTURE AND DESIGN OF WORKBENCH : | |
| Structure Material | 1.5 mm thick CRC powder coated pipes |
| Top Material | 19 mm thick plywood covered with 1.8 mm mica |
| Basic Structure | 38 x 38 x 1.5 mm CRC powder coated pipes |
| Overall Dimensions | Width (W) = 1200 mm; Depth (D) = 750 mm; Height (H) = 1150 mm |
| Drawers | 3 MS drawers: Width (W) = 275 mm; Depth (D) = 375 mm; Height (H) = 100 mm; Thickness = 1.2 mm |
| Drawer Features | Handle and separate lock provided on each drawer |
| Instrument Housing | Depth of 500 mm from the side; MS Panel strip below for housing |
| Accessories | Supplied with Power cable, Probes, Instruction manual |
| Panel Section | Raised back height of 1200 mm from floor with matching height support |
| MULTIPLE DC POWER SUPPLY | |
| DC Output | 0-32 V, 2 Amp (continuously variable by means of Coarse and Fine controls) <br> 5 V, 5 Amp (4 V – 6 V) <br> 0 – ±15 V, 1 Amp (Dual tracking) |
| LED Indication | For voltage and current |
| Ripple and Noise | < 1mVrms |
| Resolution | · Voltage: 10 mV
· Current: 10 mA |
| Load Regulation | ± (0.05% + 100 mV) |
| Line Regulation | ± (0.05% + 100 mV) |
| Over Range Indication | Available |
| Display | 3 digits for voltage and current |
| ELECTRICAL SOCKETS AND SWITCHES FOR EXTERNAL USE: | |
| Two Pole MCB | 32 AMP |
| 15 Amp. Socket provision with Switch | Modular |
| 5 Amp. Socket provision with Switch | Modular |
| Mains Supply | 230V AC, 50 Hz |
| RCCB | 40 AMP |
| 25 MHz, TWO CHANNEL ARBITRARY FUNCTION GENERATOR | |
| ARBITRARY FUNCTION GENERATOR: | Generator featuring a built-in waveform of 150, a sampling rate of 125 MSa/s, 16 bits of vertical resolution, a 7-digit 240MHz frequency counter, an 8-meter record length, a 8th order harmonic generator, and a 4.3-inch touch screen display. |
| SOLDERING AND DESOLDERING STATION | |
| Desoldering Operation | · Power Consumption: 70W
· Input Voltage: 170-270V · Temperature Range: 180-480°C |
| Soldering Operation | · Power Consumption: 60W
· Input Voltage: 170-270V · Temperature Range:180-270°C · Temperature accuracy: ±1°C |
| 100 MHz 4 CHANNEL DIGITAL STORAGE OSCILLOSCOPE : | |
| Bandwidth | 100 MHz |
| Channels | 4 |
| Display | 7 inch multi-touch |
| Real-Time Sampling Rate | 1.25 GSa/s |
| Vertical Sensitivity | 500 pV/Div to 10 V/Div |
| Memory Depth | 25 Mpts |
| Waveform Capture Rate | 1,000,000 wfms/s |
| Additional Equipment | Component Tester |
| Vertical Resolution | 12 bits |
| Component Tester Features | · Test short circuit
· Test open circuit · Polarity testing of diodes and transistors |
| 5 1/2 DIGIT DIGITAL MULTI METER | |
| Voltage Range (DC) | 200mV to 1000V |
| Sensor Measurement | DCV, DCI, Frequency, 2 WR, 4 WR, TC |
| Math Functions | Max, Min, Average, Standard Deviation, Pass/Fail, dBm, dB, Relative Measurement, Histogram |
| Voltage Range (AC) | 200mV to 750V |
| Current Range (AC/DC) | 200uA to 10A |
| Pass/Fail Test Feature | Available |
| DIGITAL IC TESTER | |
| Supported ICs for Testing | 74 Series, 40/45 Series of CMOS ICs, Microprocessor 8085, 8086, Z80, Peripherals like 8255, 8279, 8253, 8259, 8251, 8155, 6264, 62256, 8288, 8284 |
| Structure | Bench top, plastic chassis |
| Operating Temperature | 0°C~+40°C |
| Power Consumption | 12VA |
| Operating Time | Turn off for 5 minutes after one-hour continuous running |
| Continuous Operating Conditions | Supply voltage: 230V, Ambient temperature: 25°C |
| Power Supply Voltage | 220V±10%, 50Hz |
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