Category : Emona TIMS Teaching Solutions
Emona ETT-101 BiSKIT
Single-Board Telecommunications Trainer for Introductory Courses
A compact, self-contained single-board trainer that makes teaching telecommunications easier for professors in introductory university and technical college courses — covering 42+ modern communications topics in one low-profile unit.
Emona ETT-101 BiSKIT Technical Specification
| Form Factor | Single board, low-profile, self-contained case |
| Power | Standard 12V DC plug-pack only |
| Experiments | 42+ modern communications topics |
| Two Models | ETT-101 (Standard) and ETT-101C (PC-Enabled with built-in instruments) |
| ETT-101C Instruments | 2-channel 100MS/s oscilloscope, 2-channel 10MHz spectrum analyser, single-channel function/arbitrary waveform generator (via USB) |
| Approach | Unique block-diagram patching with step-by-step diagrams |
| Accessories | 20x stackable patch cords, user manual, lab manuals Vol. 1 & 2, 12V plug pack |
Applications
- • Introductory university telecoms courses
- • Technical college labs
- • AM/FM/DSB/SSB/PCM/FSK/BPSK/QPSK modulation experiments
- • Hands-on student learning
- • Fiber optics experiments (with accessory kit)
Overview
The Emona Telecoms-Trainer 101 (ETT-101), also known as "BiSKIT" (Building Student Knowledge In Technology), is a low-cost, single-board trainer designed for large student cohorts in introductory university and technical college telecommunications courses. Completely self-contained within a compact, low-profile case powered by a standard 12V DC plug-pack, it requires no dedicated test bench. Students build experiments at the block diagram level using stackable patch cords, directly mirroring textbook block diagrams and making the relationship between theory and practice immediately visible. The PC-enabled variant (ETT-101C) adds a fully functional built-in instrument suite accessible via USB, including oscilloscope, spectrum analyser, and waveform generator. Over 42 modern communications topics are covered, from basic analog and digital modulation to advanced topics such as DSSS Spread Spectrum, QPSK, QAM, Software Defined Radio, Eye Diagrams, and Fiber Optics.