Keithley 2450 SourceMeter, SMU Instrument, 200V, 1A, 2W, 2400 Graphic Series
Our Part #21323.1
Mfr Part #2450
Keithley 2450 SourceMeter, SMU Instrument, 200V, 1A, 2W, 2400 Graphic Series
Our Part #21323.1
Condition:New
Mfr Part #2450
Condition:New
- Description
- Specifications
- Documents
Keithley 2450 SourceMeter SMU Instrument
Key Features
5-inch high‑resolution capacitive touchscreen GUI for intuitive control and reduced learning curve.
0.012% basic measure accuracy with 6.5‑digit resolution for precise sourcing and measurement.
Enhanced low‑level performance with 20 mV and 10 nA source/measure ranges.
Four-quadrant source and sink operation up to 200 V, 1 A, 20 W.
All‑in‑one instrument: precision power supply, DMM, electronic load, current source, and trigger controller.
Quickset modes for fast configuration of common SMU tasks.
Built‑in plotting, charting, and data export directly from the front panel.
TSP® scripting + TSP‑Link® for scalable multi‑instrument automation (up to 32 units).
Multiple connectivity options: USB, GPIB, Ethernet/LXI, digital I/O, rear triax.
KickStart™ software compatibility for rapid I‑V characterization.
Optional I‑V Tracer app enabling intuitive curve tracing.
The 2450, Keithley’s next-generation SourceMeter source measure unit (SMU), a 200V, 1A, 20W instrument, truly brings Ohm’s law (current, voltage, and resistance) testing right to your fingertips. Its innovative graphical user interface (GUI) and advanced, capacitive touchscreen technology allow intuitive usage and minimize the learning curve to enable engineers and scientists to learn faster, work smarter, and invent easier.
The 2450 is the SMU for everyone: a versatile instrument, particularly well-suited for characterizing modern scaled semiconductors, nano-scale devices and materials, organic semiconductors, printed electronics, and other small-geometry and low-power devices. All this combined with Keithley SMU precision and accuracy allows users to Touch, Test, Invent® with the new favorite go-to instrument in the lab for years to come.
Technical Highlights
Performance & Ranges
Voltage: 20 mV to 200 V ranges
Current: 10 nA to 1 A ranges
Resistance measurements up to 200 MΩ+ (via source‑voltage or source‑current techniques)
Noise performance: ~2 mV RMS typical on voltage source (10 Hz–1 MHz)
Speed & Productivity
Up to >3000 readings/second in high‑speed modes
250,000‑point buffer for large data sets and sweeps
User Interface
Touch‑driven menus reduce configuration steps by up to 50%
Graphical sweep plots, tables, and real‑time charting on screen
Connectivity
Rear: Triax, USB‑B, Ethernet/LXI, GPIB, digital I/O
Front: USB‑A for scripts, data storage, and updates
TSP‑Link for multi‑instrument synchronization and parallel testing
Applications
The 2450 is optimized for electrical characterization and functional testing in:
Nanomaterials & Nanodevices
Graphene, CNTs, nanowires, low‑power nanostructures
Semiconductors
Wafer‑level tests, thin films, small‑signal BJTs, FETs
Organic / Printed Electronics
E‑inks, OLED/AMOLED, flexible electronics
Energy & Optoelectronics
LEDs, photovoltaic cells, batteries, and electrochemical systems
General Components
Diodes, resistors, sensors, zener diodes, HDD heads
Material Characterization
Resistivity, Hall measurements, high‑ohmic components (with triax)
In The Box
2450 SourceMeter Instrument
Power Line Cord
Test Leads
USB Cable
Ethernet/TSP-Link Cable
Safety Interlock Mating Connector/Adapter
Quick Start Guide
TSP Toolkit Software
KickStart Startup Software
LabVIEW and IVI Drivers
FAQ: Frequently Asked Question
1) How do I configure the Keithley 2450 to source voltage and measure current (or vice versa)?
On the touchscreen, choose Source Function (Voltage or Current) and Measure Function (the complementary parameter). Set the source level, compliance limit (current limit when sourcing voltage, or voltage limit when sourcing current), and an appropriate measurement range. Use Quickset presets to speed up common tasks, then view results on the built‑in plot/table screens. This workflow enables safe, repeatable I‑V characterization for diodes, transistors, sensors, materials, and more.
2) What’s the difference between 2‑wire and 4‑wire (Kelvin) measurements, and when should I use each?
2‑wire: The same leads carry source and measurement signals. It’s fast and fine for general‑purpose work, but lead resistance can add error—especially at low resistance or low voltage.
4‑wire (Kelvin): Separate force and sense leads measure voltage directly at the DUT terminals, effectively eliminating lead resistance error.
Recommendation: Use 2‑wire for routine measurements; switch to 4‑wire for high‑precision, low‑ohmic, or low‑level measurements (the 2450’s rear triax connections and sense terminals make this straightforward).
3) How can I automate measurements or remote‑control the Keithley 2450?
Choose from multiple paths:
No‑code control: Use KickStart™ to set up I‑V sweeps, log data, and export results without writing scripts.
Scripting on the instrument: Use TSP® (Test Script Processor) to run tests locally and scale to multi‑unit systems via TSP‑Link®.
Traditional remote control: Connect over USB, LAN (Ethernet/LXI), or GPIB and use SCPI (2400‑compatible) from environments like Python (PyVISA), LabVIEW, or MATLAB.
All approaches support high‑throughput workflows (e.g., automated sweeps, data logging, production test).