|
Agilent E9340A
Logic Analyzer
Click image to enlarge
Agilent E9340A
|
|
Features:
- Single-screen user interface — the most commonly used features, and the captured data, are available on one screen
- Portable (can fit in a briefcase with a laptop computer)
- Least expensive logic analyzer in Agilent Technologies' history
- Uses the display, processor, and input devices of your PC so you don't pay twice for the same functions (connects via parallel port)
- 34 channels
- Memory depth of 128K samples on each channel in timing mode, 64K in state mode
- 100 MHz state analysis
- 250 MHz timing analysis
- Perfect for debugging digital circuits that use 8- or 16-bit microprocessors, micro-controllers, or FPGAs
|
Description
The Agilent E9340A LogicWave logic analyzer is easy to use, inexpensive, and powerful. It's the perfect personal tool for digital circuit debugging. LogicWave offers single screen operation with an easy to use graphical interface. This is the perfect tool if you are looking for an easy to use, inexpensive solution to your debugging needs.
A PC-hosted logic analyzer connects to a personal computer that runs the logic analyzer user interface software. You can set up measurements, run them, and display and analyze the captured data on your PC. These tools are designed for personal and portable use.
The Agilent Technologies LogicWave E9340A logic analyzer offers design engineers a low-cost, transportable debug tool that is easy to set up and use. With the amazing price/performance of LogicWave, designers can afford to use a personal analyzer to conduct basic measurements rather than wait for the lab analyzer to become available.
|
Models, Options, & Accessories
| Model |
Description |
List Price |
Sale Price |
| 54620C |
Agilent54620C - Discontinued - no replacement |
| E9340A |
AgilentE9340A - Discontinued - no replacement |
| Model |
Options |
List Price |
Sale Price |
| 1184A |
Testmobile - Discontinued - no replacement |
| 2613A |
Please call or email us for pricing and availability. |
| E2613B |
Wedge 0.5mm Probe Adapter |
| $182.00 |  |
|
| E2614A |
Wedge 0.5 mm Probe Adapter-8 Signal |
| $212.00 | |
|
| E2615A |
Wedge 0.65 mm Probe Adapter-3 Signal |
| $127.00 | |
|
| E2615B |
Wedge 0.65 mm Probe Adapter-3 Signal |
| $212.00 | |
|
| E2616A |
Wedge 0.65mm Probe Adapter-8 Signal |
| $207.00 | |
|
| E2643A |
Wedge 0.5mm Probe Adapter-16 Signal |
| $296.00 | |
|
| E2644A |
Wedge 0.65mm Probe Adapter-16 Signal |
| $296.00 | |
|
Specifications
| Timing Analysis |
| Sample period accuracy |
± 0.01% |
| Channel-to-channel skew |
2 ns typical, 3 ns max |
| Timing interval accuracy |
± (sample period accuracy + channel-to-channel skew + 0.01 % of time interval reading) |
| State Analysis |
| Setup/hold1 |
4.0/0 ns fixed |
| Minimum state clock pulse width |
3.5 ns |
| Time tag resolution |
8 ns or ± 0.1% (whichever is greater) |
| Maximum time count between states |
34 seconds |
| Clock qualifiers setup/hold |
4.0/0 ns fixed |
| Triggering |
| Sequencer speed |
125 MHz maximum |
| State sequence levels |
3 |
| Timing sequence levels |
2 |
| Port In delay |
35 ns between rising edge on Port In BNC and don’t care logic analyzer trigger |
| Port Out delay |
120 ns between logic analyzer trigger and rising edge on Port Out BNC |
| Probes |
| Input resistance |
100 kΩ ±2% |
| Parasitic tip capacitance |
1.5 pF |
| Minimum input voltage swing |
500 mV peak-to-peak |
| Threshold accuracy |
±(100 mV + 3% of threshold setting) |
| Threshold range |
TTL, ECL, -6.0 V to + 6.0 V in 50 mV increments |
| Maximum input voltage |
± 40 V peak |
| Operating Environment |
| Temperature |
Instrument: 0°C to 55° C (+32°F to 131°F)
Disk media: 10°C to 40°C (+50°F to 104°F) |
| Humidity |
Up to 95% relative humidity at 40°C |
| Altitude |
4,572 m (15,000 ft) |
| Data Storage |
| Supported file formats for screen shots |
Use CTRL + ALT + PrtScrn to create bitmap |
| Configuration and data files |
Encoded in binary format (stored to or loaded from host PC); can export acquired data to an ASCII formatted file. |
|
;)
