Electronics Design Board
Innovative Electronics Engineering Laboratory - All In One Equipment
What is the Electronics Design Board? For Engineering Education
The Electronics Design Board is a fully functional, portable test and measurement device that can turn any cross-functional space into a pop-up electronics laboratory. Equipped with 12 instruments, including an Oscilloscope, Logic Analyzer, Spectrum Analyzer, Waveform Generator, Power Supply, Multimeter and more; the Electronics Design Board provides an entire stack of bench-top instruments with a convenient, replaceable, and breadboardable interface, perfect for enabling student learning anywhere.
With lab spaces decreasing and student enrollment increasing, many institutions are choosing Electronics Design Board as a supplement to traditional laboratories, creating a need for a portable test and measurement bench that can support all types of circuits projects. With an Electronics Design Board, students can continue their hands-on learning in the library, office hours, a tutoring center, a classroom, at home or even in a coffee shop.
The Electronics Design Board supports hands-on learning for any student, and is available with free Windows compatible software, Lab electronics.
Portable Design
The Electronics Design Board is designed to be a compact alternative to a stack of benchtop equipment. Its durable enclosure measures 1.60 x 11.50 x 7.70 inches and fits on a bench, desktop, or backpack. Students can access the Oscilloscope and Waveform Generators via breadboardable, breadboard wires and industry standard BNC cables, and the Logic Analyzer, Pattern Generator, and Triggers can be accessed via breadboard wires.
Circuits or designs can be built on the included, magnetically connected Breadboard Canvas and conveniently swapped out or removed for transit, making the transition from working in the lab to working at home as seamless as possible. The Breadboard Canvas also includes power supply outputs, common I/O built-in, and a large breadboardable surface. The Breadboard Canvas and the cost-optimized Blank Canvas can be purchased separately in the event that an extra is needed, or if the breadboards wear out.
| Technical Data | |
| Oscilloscope | Channels: 4 |
| Sampling rate: 100MSa/s@4CH | |
| Bandwidth: 50MHz | |
| ADC resolution: 12bit | |
| Time base range: 10ns~10s | |
| Vertical resolution: 10mV/div~5V/div | |
| Input coupling: AC/DC | |
| Max. input voltage: ±25V | |
| Vertical resolution(Accuracy): 10mV/div ~ 5V/div ( 1%) | |
| Trigger mode: Auto, normal and single | |
| Trigger source: CH1~CH4 | |
| Trigger level adjustable: Yes | |
| Math: +, -, x, ÷, FFT | |
| Signal generator | Channels: 4 (2Main Channel, 2 Secondary Channel) |
| DAC Resolution: 12bit | |
| Max. frequency (sine): 30MHz (Main channel) 50KHz (Secondary channel) | |
| Wave form: Sine, Triangle, Square, DC, Arbitrary | |
| Output range: ±0.5mV~±5V | |
| Spectrum analyzer | Channel: 1 |
| ADC resolution: 12bit | |
| Bandwidth: 50MHz | |
| Sampling rate: 100MSa/s | |
| Voltage range: ±25V | |
| Auto measuring: Frequency, SNR, THD, V-Peak | |
| Other measuring: Hanning, B-H, RMS, Peak Hold | |
| Logical analyzer | Channels: 16 |
| Max. Input voltage: 5V | |
| Max. Sampling rate: 50MSa/s@4CH 20MSa/s@8CH 10MSa/s@16CH | |
| Max. Sampling depth: 1000 points / 500s | |
| Pulse generator | Channels: 16 |
| Refresh rage: 10MSa/s | |
| Output signal level: 3.3V, 5V | |
| Inner/Ext. Trigger select: Yes | |
| Digital multimeter | Voltage range / Accuracy: 0.1mV~36V / 1% |
| Current range / Accuracy: 0.1uA~600uA / 1% 0.1mA~400mA / 1% 100mA~3A / 1% | |
| Resistance range / Accuracy: 0.1 Ω~40M Ω/ 1% | |
| Capacitor range / Accuracy: 0.1nF~4mF / 2%~5% | |
| On/Off test: Yes | |
| Power output | Output range: ± 1.8V~± 15V, fixed ±5V, fixed 3.3V |
| Rated current: ±700mA ( ±1.8V~ ±15V), 700mA (fixed+5V), -100mA (fixed-5V), 600mA (fixed 3.3V) | |
| Protection: Shout cut / over current | |
| Interface | USB 2.0 |
| Power Source | USB |
|
Dimension (W x H x D) |
290 40 195 mm |
| Weight | 1.5kg |
Rethinking Electronics Education
A project-based learning approach challenges students to think about how electronics operate and to build problem-solving and critical-thinking skills. Students can achieve a deeper understanding of circuitry and electronic devices faster with Electronics Design Board to teaching electronics.
Add on Experiment Boards for EDB
ACL (Analog Circuit Lab) and DCL (Digital Circuit Lab) Experimental Boards
ACL Board Supported Experiments DCL Board Supported Experiments
1 : Monopole Amplifying Circuit 1 : Transistor Switching Characteristics
2 : Two Stage Amplifier Circuit 2 : Logic Function and Parameter test of TTL Integrated Logic Gate
3 : Negative Feedback Amplifier Circuit 3 : Logic Functions and Parameter Test of CMOS Logic Gate
4 : Emitter Follower 4 : Verify Function of Logic Gate
5 : Differential Amplifier 5 : Integration Logic Circuit Connection and Drive
6 : Scaling Summing Amplifier 6 : Applications of TTL Gates with Open-collector Outputs and Tri-state Outputs
7 : Integrator and Differentiator Amplifier 7 : Digital Comparator Circuit
8 : Waveform Generator Circuit 8 : Arithmetic Operation Circuit
9 : Active Filter 9 : Parity Generator
10 : Voltage Comparator 10 : Encoder and Decoder
11 : Wien Bridge Oscillator 11 : Data Selector and Distributor
12 : Integrated Power Amplifier 12 : Use Gate to Produce Pulse Signal (Multivibrator)
13 : Rectifier Filter and Parallel Regulation Circuit 13 : Monostable Trigger and Schmitt Trigger
14 : Series Regulation Circuit 14 : 555 Timer and Its Application
15 : Integrated Voltage Regulator 15 : Trigger (flip-flop) and Its Application
16 : RC Oscillator 16 : Shift Register IC and Its Application
17 : LC Oscillator and Frequency-selective Amplifier 17 : IC Counter and Its Application
18 : Current/voltage Conversion Circuit 18 : Random Access Memory 2114A and Its Application
19 : Voltage/frequency Conversion Circuit 19 : D/A and A/D converter
20 : Complementary Symmetry Power Amplifier
21 : Waveform Conversion Circuit
22 : FET Amplifier
INTEL (Formally Altera) FPGA Experiment Board
XILINX FPGA Experiment Board
ARDUINO UNO Experiment Board
