* Source or sink: -- 2,000W of pulsed power (40V, 50A) -- 200W of DC power (10V@20A, 20V@10A, 40V@5A) * Easily connect two units (in series or parallel) to create solutions up to 100A or 80V * 1pA resolution enables precise measurement of very low leakage currents * 1s per point (1MHz), 18-bit sampling, accurately characterizes transient behavior * 1% to 100% pulse duty cycle for pulse width modulated (PWM) drive schemes and devicespecific drive stimulus * Combines a precision power supply, current source, DMM, arbitrary waveform generator, V or I pulse generator with measurement, electronic load, and trigger controller--all in one instrument * Includes TSP(R) Express I-V characterization software, LabVIEW(R) driver, and Keithley's Test Script Builder software development environment APPLICATIONS The high power Model 2651A SourceMeter SMU Instrument is specifically designed to characterize and test high power electronics. This SMU instrument can help you improve productivity in applications across the R&D, reliability, and production spectrums, including high brightness LEDs, power semiconductors, DC-DC converters, batteries, solar cells, and other high power materials, components, modules, and subassemblies. The Model 2651A offers a highly flexible, four-quadrant voltage and current source/load coupled with precision voltage and current meters. It can be used as a: * * * * * * * Semiconductor characterization instrument V or I waveform generator V or I pulse generator Precision power supply True current source Digital multimeter (DCV, DCI, ohms, and power with 61/2-digit resolution) Precision electronic load High power System SourceMeter SMU instrument 50A, High Power System SourceMeter(R) SMU Instrument +50A +20A +10A +5A 0A -5A -10A DC and Pulse Pulse only -20A * Power semiconductor, HBLED, and optical device characterization and testing * Solar cell characterization and testing * Characterization of GaN, SiC, and other compound materials and devices * Semiconductor junction temperature characterization * High speed, high precision digitization * Electromigration studies * High current, high power device testing -50A -40V -20V -10V 0V +10V +20V +40V The Model 2651A can source or sink up to 40V and 50A. Two Measurement Modes: Digitizing or Integrating Precisely characterize transient and steady-state behavior, including rapidly changing thermal effects, with the two measurement modes in the Model 2651A. Each mode is defined by its independent analog-to-digital (A/D) converters. The Digitizing Measurement mode enables 1s per point measurements. Its 18-bit A/D converters allow you to precisely measure transient characteristics. For more accurate measurements, use its Integrating Measurement mode, which is based on 22-bit A/D converters. 1.888.KEITHLEY (U.S. only) www.keithley.com A Greater Measure of Confidence SMU INSTRUMENTS High power System SourceMeter SMU instrument 2651A 50A, High Power System SourceMeter(R) SMU Instrument unit can pulse up to 50A; combine two units to pulse up to 100A. 2651A Expansion Capabilities Through TSP-Link Technology technology, multiple Model 2651As and selected Series 2600B SMU instruments can be combined to form a larger integrated system with up to 64 channels. Precision timing and tight channel synchronization are guaranteed with built-in 500ns trigger controllers. True SMU instrument-per-pin testing is assured with the fully isolated, independent channels of the SourceMeter SMU instruments. High Power System SourceMeter(R) SMU Instrument Accessories Supplied 2651A-KIT-1A: Low Impedance Cable Assembly (1m) CS-1592-2: High Current Phoenix Connector (male) CS-1626-2: High Current Phoenix Connector (female) CA-557-1: Sense Line Cable Assembly (1m) 7709-308A: Digital I/O Connector CA-180-3A: TSP-Link/Ethernet Cable Documentation CD Software Tools and Drivers CD 2651A 2651A TSP-Link Screw Terminal Connector Kit Component Charaterization Software Rack Mount Kit Test Socket Kit Two A/D converters are used with each measurement mode (one for current and the other for voltage), which run simultaneously for accurate source readback that does not sacrifice test throughput. 7 60 6 50 40 Current (A) Voltage (V) 5 4 30 3 20 2 10 1 0 0 25 50 75 100 125 150 175 Keithley's TSP and TSP-Link Technologies enable true SMU-per-pin testing without the power and/or channel limitations of a mainframe-based system. Also, when two Model 2651As are connected in parallel with TSP-Link Technology, the current range is expanded from 50A to 100A. When two units are connected in series, the voltage range is expanded from 40V to 80V. Built-in intelligence simplifies testing by enabling the units to be addressed as a single instrument, thus creating an industry-best dynamic range (100A to 1pA). This c apability enables you to test a much wider range of power semiconductors and other devices. 0 200 60 Time (s) Volts 26xxB LXI or GPIB to PC Controller Accessories Available 2600-KIT ACS-BASIC 4299-6 8011 Up to 100A Current High Speed Pulsing The Model 2651A minimizes the unwanted effects of self heating during tests by accurately sourcing and measuring pulses as short as 100s. Additional control flexibility enables you to program the pulse width from 100s to DC and the duty cycle from 1% to 100%. A single 40 Id (A) SMU INSTRUMENTS 50 The dual digitizing A/D converters sample at up to 1s/point, enabling full simultaneous characterization of both current and voltage waveforms. Vgs = 2.01V Vgs = 2.25V Vgs = 2.50V Vgs = 2.75V Vgs = 3.00V Vgs = 3.25V Vgs = 3.51V 30 20 10 0 0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 0.020 0.018 Id = 10A Id = 20A Id = 30A Id = 40A Id = 50A 0.016 0.014 Rds (ohms) Ordering Information 0.012 0.010 0.008 0.006 0.004 0.002 0.000 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 6.5 Vgs (V) 1V measurement resolution and current sourcing up to 50A (100A with two units) enable low-level Rds measurements to support next-generation devices. Standard Capabilities of Series 2600B SMU Instruments Each Model 2651A includes all the features and capabilities provided in most Series 2600B SMU instruments, such as: * Ability to be used as either a bench-top I-V characterization tool or as a building block component of multiple-channel I-V test systems * TSP Express software to quickly and easily perform common I-V tests without programming or installing software * ACS Basic Edition software for semiconductor component characterization (optional). ACS Basic now features a Trace mode for generating a suite of characteristic curves. * Keithley's Test Script Processor (TSP(R)) Technology, which enables creation of custom user test scripts to further automate testing, and also supports the creation of programming sequences that allow the instrument to operate asynchronously without direct PC control. * Parallel test execution and precision timing when multiple SMU instruments are connected together in a system * LXI compliance * 14 digital I/O lines for direct interaction with probe stations, component handlers, or other automation tools * USB port for extra data and test program storage via USB memory device 4.0 Vds (V) Precision measurements to 50A (100A with two units) enable a more complete and accurate characterization. 1.888.KEITHLEY (U.S. only) www.keithley.com A Greater Measure of Confidence High power System SourceMeter SMU instrument High power System SourceMeter SMU instrument 2651A 2651A 50A, High Power System SourceMeter(R) SMU Instrument Specification Conditions VOLTAGE ACCURACY SPECIFICATIONS 1, 2 SOURCE Range 100.000 mV 1.00000 V 10.0000 V 20.0000 V 40.0000 V Programming Resolution 5 V 50 V 500 V 500 V 500 V Accuracy (% reading + volts) 0.02% + 500 V 0.02% + 500 V 0.02% + 5 mV 0.02% + 5 mV 0.02% + 12 mV MEASURE Noise (Vpp) (typical) 0.1 Hz to 10 Hz 100 V 500 V 1 mV 1 mV 2 mV Default Display Resolution 1 V 10 V 100 V 100 V 100 V Noise (Ipp) (typical) 0.1Hz to 10Hz 50 pA 250 pA 500 pA 5 nA 10 nA 500 nA 1 A 300 A 300 A 500 A 500 A N/A Default Display Resolution 1 pA 10 pA 100 pA 1 nA 10 nA 100 nA 1 A 10 A 10 A 100 A 100 A 100 A Integrating ADC Accuracy 3 (% reading + volts) 0.02% + 300 V 0.02% + 300 V 0.02% + 3 mV 0.02% + 5 mV 0.02% + 12 mV High-Speed ADC Accuracy 4 (% reading + volts) 0.05% + 600 V 0.05% + 600 V 0.05% + 8 mV 0.05% + 8 mV 0.05% + 15 mV CURRENT ACCURACY SPECIFICATIONS 5 SOURCE Range 100.000 nA 1.00000A 10.0000A 100.000A 1.00000 mA 10.0000 mA 100.000 mA 1.00000 A 5.00000 A 10.0000 A 20.0000 A 50.0000 A 6 Programming Resolution 2 pA 20 pA 200 pA 2 nA 20 nA 200 nA 2A 200A 200A 500A 500A 2 mA Accuracy (% reading + amps) 0.1 % + 500 pA 0.1 % + 2 nA 0.1 % + 10 nA 0.03% + 60 nA 0.03% + 300 nA 0.03% + 8A 0.03% + 30A 0.08% + 3.5 mA 0.08% + 3.5 mA 0.15% + 6 mA 0.15% + 8 mA 0.15% + 80 mA MEASURE Integrating ADC Accuracy 3 (% reading + amps) 0.08% + 500 pA 0.08% + 2 nA 0.08% + 8 nA 0.02% + 25 nA 0.02% + 200 nA 0.02% + 2.5 A 0.02% + 20 A 0.05% + 3 mA 0.05% + 3 mA 0.12% + 6 mA 0.08% + 8 mA 0.05% + 50 mA 7 Model 2651A specifications Source and measurement accuracies are specified at the Model 2651A terminals under these conditions: * 23 5C, <70 percent relative humidity * After two-hour warm-up * Speed normal (1 NPLC) * A/D autozero enabled * Remote sense operation or properly zeroed local operation * Calibration period: One year High-Speed ADC Accuracy 4 (% reading + amps) 0.08% + 800 pA 0.08% + 4 nA 0.08% + 10 nA 0.05% + 60 nA 0.05% + 500 nA 0.05% + 10 A 0.05% + 50 A 0.05% + 5 mA 0.05% + 5 mA 0.12% + 12 mA 0.08% + 15 mA 0.05% + 90 mA 8 NOTES 1. Add 50V to source accuracy specifications per volt of HI lead drop. 2. For temperatures 0 to 18C and 28 to 50C, accuracy is degraded by (0.15 x accuracy specification)/C. High-capacitance mode accuracy is applicable at 23 5C only. 3. Derate accuracy specification for NPLC setting <1 by increasing error term. Add appropriate typical percent of range term for resistive loads using the table below. NPLC Setting 100mV Range 1V to 40V Ranges 100nA Range 1A to 100mA Ranges 1A to 20A Ranges 0.1 0.01 0.001 0.01% 0.08% 0.8 % 0.01% 0.07% 0.6 % 0.01% 0.1 % 1% 0.01% 0.05% 0.5 % 0.01% 0.1 % 1.8 % 4. 18-bit ADC. Average of 1000 samples taken at 1s intervals. 5. At temperatures 0 to 18C and 28 to 50C; 100nA to 10A accuracy is degraded by (0.35 x accuracy specification)/C. 100A to 50A accuracy is degraded by (0.15 x accuracy specification)/C. High-capacitance mode accuracy is applicable at 23 5C only. 6. 50A range accessible only in pulse mode. 7. 50A range accuracy measurements are taken at 0.008 NPLC. 8. Average of 100 samples taken at 1s intervals. SMU INSTRUMENTS Model 2651A specifications This document contains specifications and supplemental information for the Model 2651A High Power System SourceMeter SMU instrument. Specifications are the standards against which the Model 2651A is tested. Upon leaving the factory, the Model 2651A meets these specifications. Supplemental and typical values are non-warranted, apply at 23C, and are provided solely as useful information. Accuracy specifications are applicable for both normal and high-capacitance modes. 1.888.KEITHLEY (U.S. only) www.keithley.com A Greater Measure of Confidence 2651A 50A, High Power System SourceMeter(R) SMU Instrument Maximum output power: 202W maximum. Source/Sink Limits 1: Voltage: 10.1V at 20.0A, 20.2V at 10.0A, 40.4V at 5.0A 2. Four-quadrant source or sink operation. Current: 5.05A at 40V 2, 10.1A at 20V, 20.2A at 10V Four-quadrant source or sink operation. +50A CAUTION: Carefully consider and configure the appropriate output-off state and source and compliance levels before connecting the Model 2651A to a device that can deliver energy. Failure to consider the output-off state and source and compliance levels may result in damage to the instrument or to the device under test. +10A +5A 0A -5A -10A Pulse SPECIFICATIONS Minimum programmable pulse width 3: 100s. Note: Minimum pulse width for settled source at a given I/V output and load can be longer than 100s. Pulse width programming resolution: 1s. Pulse width programming accuracy 3: 5s. Pulse width jitter: 2s (typical). Pulse Rise Time (typical): -20A Current Range 50 A 50 A 50 A 20 A 50 A 20 A 10 A 5A R load 0.05 W 0.2 W 0.4 W 0.5 W 0.8 W 1 W 2 W 8.2 W Rise Time (typical) 26 s 57 s 85 s 95 s 130 s 180 s 330 s 400 s 6 5 +30A 7 2 +20A 3 4 DC 1 Pulse -30A -50A -40V -20V 0V -10V Region Maximums 5 A at 40 V 10 A at 20 V 20 A at 10 V 30 A at 10 V 20 A at 20 V 10 A at 40 V 50 A at 10 V 50 A at 20 V 50 A at 40 V Region 1 1 1 2 3 4 5 6 7 +10V +20V Maximum Pulse Width 3 DC, no limit DC, no limit DC, no limit 1 ms 1.5 ms 1.5 ms 1 ms 330 s 300 s +40V Maximum Duty Cycle 4 100% 100% 100% 50% 40% 40% 35% 10% 1% NOTES 1. Full power source operation regardless of load to 30C ambient. Above 30C or power sink operation, refer to "Operating Boundaries" in the Model 2651A Reference manual for additional power derating information. 2. Quadrants 2 and 4 power envelope is trimmed at 36V and 4.5A. 3. Times measured from the start of pulse to the start off-time; see figure below. Pulse Level 90% Start toff Start ton Bias Level 10% 10% ton toff SMU INSTRUMENTS 4. Thermally limited in sink mode (quadrants 2 and 4) and ambient temperatures above 30C. See power equations in the Model 2651A Reference Manual for more information. The Model 2651A supports GPIB, LXI, Digital I/O, and Keithley's TSP-Link Technology for multi-channel synchronization. 1.888.KEITHLEY (U.S. only) www.keithley.com A Greater Measure of Confidence Model 2651A specifications Model 2651A specifications DC POWER SPECIFICATIONS 50A, High Power System SourceMeter(R) SMU Instrument Noise (10Hz to 20MHz): <100mV peak-peak (typical), <30mV RMS (typical), 10V range with a 20A limit. Overshoot: Voltage: <(0.1% + 10mV) (typical). Step size = 10% to 90% of range, resistive load, maximum current limit/compliance. Current: <(0.1% + 10mV) (typical). Step Size = 10% to 90% of range, resistive load. See Current Source Output Settling Time specifications for additional test conditions. Range change overshoot: Voltage: <300mV + 0.1% of larger range (for <20V ranges) (typical). <400mV + 0.1% of larger range (for 20V ranges) (typical). Overshoot into a 100kW load, 20MHz bandwidth. Current: <5% of larger range + 360mV/R load (for >10A ranges) (typical). Iout x R load = 1V. Voltage source output settling time: Time required to reach within 0.1% of final value after source level command is processed on a fixed range. 1 Range 1V 10 V 20 V 40 V Settling Time (typical) < 70 s <160 s <190 s <175 s Current source output settling time: Time required to reach within 0.1% of final value after source level command is processed on a fixed range. Values below for Iout x R load. Current Range R load Settling time (typical) <195 s 20 A 0.5 W 10 A <540 s 1.5 W 5 A <560 s 5 W 1 A < 80 s 1 W < 80 s 100 mA 10 W 10 mA <210 s 100 W 1 mA <300 s 1 kW 100A <500 s 10 kW 10A < 15 ms 100 kW 1A < 35 ms 1 MW 100 nA <110 ms 10 MW Transient response time: 10V and 20V Ranges: <70s for the output to recover to within 0.1% for a 10% to 90% step change in load. 40V Range: <110s for the output to recover to within 0.1% for a 10% to 90% step change in load. Guard offset voltage: <4mV, current <10mA. Remote sense operating range 2: Maximum Voltage between HI and SENSE HI: 3V. Maximum Voltage between LO and SENSE LO: 3V. Maximum impedance per source lead: Maximum impedance limited by 3V drop by remote sense operating range. Maximum resistance = 3V/source current value (amperes) (maximum of 1W per source lead). 3V = L di/dt. Voltage output headroom: 5A Range: Maximum output voltage = 48.5V - (Total voltage drop across source leads). 10A Range: Maximum output voltage = 24.5V - (Total voltage drop across source leads). 20A Range: Maximum output voltage = 15.9V - (Total voltage drop across source leads). Overtemperature protection: Internally sensed temperature overload puts unit in standby mode. Limit/compliance: Bipolar limit (compliance) set with single value. Voltage 3: Minimum value is 10mV; accuracy is the same as voltage source. Current 4: Minimum value is 10nA; accuracy is the same as current source. Additional Measurement specifications Contact Check 1 Speed Fast Medium Slow Maximum Measurement Time to Memory for 60Hz (50Hz) 1.1 ms (1.2 ms) 4.1 ms (5 ms) 36 ms (42 ms) Accuracy (1 Year) 23 5C (% reading + ohms) 5% + 15 W 5% + 5 W 5% + 3 W NOTES 1. Includes measurement of SENSE HI to HI and SENSE LO to LO contact resistances. Additional meter specifications Maximum load impedance: Normal Mode: 10nF (typical), 3H (typical). High-Capacitance Mode: 50F (typical), 3H (typical). Common mode voltage: 250V DC. Common mode isolation: >1GW, <4500pF. Measure input impedance: >10GW. Sense high input impedance: >10GW. Maximum sense lead resistance: 1kW for rated accuracy. Overrange: 101% of source range, 102% of measure range. HIGH-CAPACITANCE mODE 1,2 Model 2651A specifications Model 2651A specifications ADDITIONAL SOURCE SPECIFICATIONS Accuracy specifications 3: Accuracy specifications are applicable in both normal and highcapacitance modes. Voltage Source Output Settling Time: Time required to reach within 0.1 % of final value after source level command is processed on a fixed range. 4 Voltage Source Range 1V 10 V 20 V 40 V Settling Time with Cload = 4.7F (typical) 75 s 170 s 200 s 180 s Mode change delay: 100A Current Range and Above: Delay into High-Capacitance Mode: 11ms. Delay out of High-Capacitance Mode: 11ms. 1A and 10A Current Ranges: Delay into High-Capacitance Mode: 250ms. Delay out of High-Capacitance Mode: 11ms. Measure input impedance: >10GW in parallel with 25nF. Voltage source range change overshoot: <400mV + 0.1% of larger range (typical). Overshoot into a 100kW load, 20MHz bandwidth. NOTES 1. High-capacitance mode specifications are for DC measurements only and use locked ranges. Autorange is disabled. 2. 100nA range is not available in high-capacitance mode. 3. Add an additional 2nA to the source current accuracy and measure current accuracy offset for the 1A range. 4. With measure and compliance set to the maximum current for the specified voltage range. SMU INSTRUMENTS 2651A NOTES 1. With measure and compliance set to the maximum current for the specified voltage range. 2. Add 50V to source accuracy specifications per volt of HI lead drop. 3. For sink mode operation (quadrants II and IV), add 0.6% of limit range to the corresponding voltage source accuracy specifications. For 100mV range add an additional 60mV of uncertainty. Specifications apply with sink mode enabled. 4. For sink mode operation (quadrants II and IV), add 0.6% of limit range to the corresponding current limit accuracy specifications. Specifications apply with sink mode enabled. 1.888.KEITHLEY (U.S. only) www.keithley.com A Greater Measure of Confidence 2651A 50A, High Power System SourceMeter(R) SMU Instrument Measurement Speed Specifications 1, 2 A/D Converter Speed 0.001 NPLC 0.001 NPLC 0.01 NPLC 0.01 NPLC 0.1 NPLC 0.1 NPLC 1.0 NPLC 1.0 NPLC HS ADC HS ADC Trigger Origin Internal Digital I/O Internal Digital I/O Internal Digital I/O Internal Digital I/O Internal Digital I/O Measure To Memory Using User Scripts 20000 (20000) 8100 (8100) 4900 (4000) 3500 (3100) 580 (480) 550 (460) 59 (49) 58 (48) 38500 (38500) 12500 (12500) Measure To Gpib Using User Scripts 9800 (9800) 7100 (7100) 3900 (3400) 3400 (3000) 560 (470) 550 (460) 59 (49) 58 (49) 18000 (18000) 11500 (11500) Readings per Second Bursts per Second 100 500 1000 2500 5000 1,000,000 1,000,000 1,000,000 1,000,000 1,000,000 400 80 40 16 8 Source Measure To Gpib Using User Scripts 6200 (6200) 5100 (5100) 3200 (2900) 2900 (2600) 550 (460) 540 (450) 59 (49) 59 (49) 9500 (9500) 7000 (7000) Source Measure To Memory Using Sweep API 12000 (12000) 11200 (11200) 4200 (3700) 4150 (3650) 560 (470) 560 (470) 59 (49) 59 (49) 14300 (14300) 13200 (13200) TRIGGERING AND SYNCHRONIZATION SPECIFICATIONS High Speed ADC Burst MEASUREMENT RATES 3 Burst Length (readings) Source Measure To Memory Using User Scripts 7000 (7000) 5500 (5500) 3400 (3000) 3000 (2700) 550 (465) 540 (450) 59 (49) 59 (49) 10000 (10000) 7500 (7500) Triggering: Trigger In to Trigger Out: 0.5s (typical). Trigger In to Source Change 1: 10s (typical). Trigger Timer Accuracy: 2s (typical). Source Change 1 After LXI Trigger: 280s (typical). Synchronization: Single-Node Synchronized Source Change 1: <0.5s (typical). Multi-Node Synchronized Source Change 1: <0.5s (typical). Maximum SINGLE MEASUREMENT RATES (operations per second) FOR 60Hz (50Hz) A/D Converter Speed Trigger Origin Measure To Gpib Source Measure To Gpib Source Measure Pass/Fail To Gpib 0.001 NPLC 0.01 NPLC 0.1 NPLC 1.0 NPLC Internal Internal Internal Internal 1900 (1800) 1450 (1400) 450 (390) 58 (48) 1400 (1400) 1200 (1100) 425 (370) 57 (48) 1400 (1400) 1100 (1100) 425 (375) 57 (48) NOTES 1. Fixed source range with no polarity change. Maximum Measurement RANGE CHANGE RATE: >4000 per second for >10A (typical). Maximum SOURCE Range CHANGE RATE: >325 per second for >10A, typical. When changing to or from a range 1A, maximum rate is >250 per second, typical. COMMAND PROCESSING TIME: Maximum time required for the output to begin to change following the receipt of the smua.source.levelv or smua.source.leveli command. <1ms typical. NOTES SMU INSTRUMENTS 1. Tests performed with a Model 2651A on channel A using the following equipment: Computer hardware (Intel(R) Pentium(R) 4 2.4GHz, 2GB RAM, National InstrumentsTM PCI-GPIB). Driver (NI-488.2 Version 2.2 PCI-GPIB). Software (Microsoft(R) Windows(R) XP, Microsoft Visual Studio(R) 2010, VISATM version 4.1). 2. Exclude current measurement ranges less than 1mA. 3. smua.measure.adc has to be enabled and the smua.measure.count set to the burst length. 1.888.KEITHLEY (U.S. only) www.keithley.com A Greater Measure of Confidence Source Measure To Gpib Using Sweep API 5900 (5900) 5700 (5700) 4000 (3500) 3800 (3400) 545 (460) 545 (460) 59 (49) 59 (49) 6300 (6300) 6000 (6000) Model 2651A specifications Model 2651A specifications Maximum SWEEP OPERATION RATES (operations per second) FOR 60Hz (50Hz): 2651A 50A, High Power System SourceMeter(R) SMU Instrument SUPPLEMENTAL INFORMATION To Host Computer Node 1 Node 2 To Additional Nodes Each Model 2651A has two TSP-Link connectors to make it easier to connect instruments together in sequence. Once source-measure instruments are interconnected through the TSP-Link expansion interface, a computer can access all the resources of each source-measure instrument through the host interface of any Model 2651A. A maximum of 32 TSP-Link nodes can be interconnected. Each source-measure instrument consumes one TSP-Link node. TIMER: Free-running 47-bit counter with 1MHz clock input. Resets each time instrument power is turned on. If the instrument is not turned off, the timer is reset to zero every 4 years. Timestamp: TIMER value is automatically saved when each measurement is triggered. Resolution: 1s. Timestamp Accuracy: 100ppm. +5V Pin 600mA Solid State Fuse Digital I/O Pin 100W +5VDC (on DIGITAL I/O connector) 5.1kW (on DIGITAL I/O connector) Read by firmware Written by firmware GND Pin (on DIGITAL I/O connector) Rear Panel Connector: 25-pin female D. Input/Output Pins: 14 open drain I/O bits. Absolute Maximum Input Voltage: 5.25V. Absolute Minimum Input Voltage: -0.25V. Maximum Logic Low Input Voltage: 0.7V, +850A max. Minimum Logic High Input Voltage: 2.1V, +570A. Maximum Source Current (flowing out of digital I/O bit): +960A. Maximum Sink Current At Maximum Logic Low Voltage (0.7): -5.0mA. Absolute Maximum Sink Current (flowing into digital I/O pin): -11mA. 5V Power Supply Pin: Limited to 250mA, solid-state fuse protected. Output Enable Pin: Active high input pulled down internally to ground with a 10kW resistor; when the output enable input function has been activated, the Model 2651A channel will not turn on unless the output enable pin is driven to >2.1V (nominal current = 2.1V/10kW = 210A). IEEE-488: IEEE-488.1 compliant. Supports IEEE-488.2 common commands and status model topology. RS-232: Baud rates from 300bps to 115200bps. Programmable number of data bits, parity type, and flow control (RTS/CTS hardware or none). When not programmed as the active host interface, the Model 2651A can use the RS-232 interface to control other instrumentation. Ethernet: RJ-45 connector, LXI, 10/100BT, Auto MDIX. LXI compliance: LXI Class C 1.2. Total Output Trigger Response Time: 245s minimum, 280s (typical), (not specified) maximum. Receive Lan[0-7] Event Delay: Unknown. Generate Lan[0-7] Event Delay: Unknown. Expansion interface: The TSP-Link Technology expansion interface allows TSP-enabled instruments to trigger and communicate with each other. Cable Type: Category 5e or higher LAN crossover cable. 3 meters maximum between each TSP-enabled instrument. USB: USB 2.0 host controller. Power supply: 100V to 250V AC, 50Hz to 60Hz (autosensing), 550VA maximum. Cooling: Forced air; side and top intake and rear exhaust. Warranty: 1 year. EMC: Conforms to European Union EMC Directive. Safety: UL listed to UL61010-1:2004. Conforms to European Union Low Voltage Directive. Dimensions: 89mm high x 435mm wide x 549mm deep (3.5 in. x 17.1 in. x 21.6 in.). Bench Configuration (with handle and feet): 104mm high x 483mm wide x 620mm deep (4.1 in. x 19 in. x 24.4 in.). Weight: 9.98kg (22 lbs). Environment: For indoor use only. Altitude: Maximum 2000 meters above sea level. Operating: 0 to 50C, 70% relative humidity up to 35C. Derate 3% relative humidity/C, 35 to 50C. Storage: -25 to 65C. 1.888.KEITHLEY (U.S. only) www.keithley.com A Greater Measure of Confidence Model 2651A specifications Keypad Operations: Change host interface settings. Save and restore instrument setups. Load and run factory and user defined test scripts that prompt for input and send results to the display. Store measurements into dedicated reading buffers. PROGRAMMING: Embedded Test Script Processor (TSP(R)) scripting engine is accessible from any host interface. Responds to individual instrument control commands. Responds to high speed test scripts comprised of instrument control commands and Test Script Language (TSL) statements (for example, branching, looping, and math). Able to execute high speed test scripts stored in memory without host intervention. Minimum User Memory Available: 16MB (approximately 250,000 lines of TSP code). Test Script Builder: Integrated development environment for building, running, and managing TSP scripts. Includes an instrument console for communicating with any TSP enabled instrument in an interactive manner. Requires: VISA (NI-VISA included on CD), Microsoft(R) .NET Framework (included on CD), Keithley I/O Layer (included on CD), Intel(R) Pentium III 800MHz or faster personal computer, Microsoft Windows(R) 2000, XP, Vista(R), or 7. TSP Express (embedded): Tool that allows users to quickly and easily perform common I-V tests without programming or installing software. To run TSP Express, you need: JavaTM Platform, Standard Edition 6, Microsoft Internet Explorer(R), Mozilla(R) Firefox(R), or another Java-compatible web browser. Software Interface: TSP Express (embedded), direct GPIB/VISA, read/write with Microsoft Visual Basic(R), Visual C/C++(R), Visual C#(R), LabVIEWTM, CEC TestPointTM Data Acquisition Software Package, NI LabWindowsTM/CVI, etc. READING BUFFERS: Nonvolatile memory uses dedicated storage areas reserved for measurement data. Reading buffers are arrays of measurement elements. Each element can hold the following items: Source setting (at the time the measurement was taken) Measurement Range information Measurement status Timestamp Two reading buffers are reserved for each Model 2651A channel. Reading buffers can be filled using the front panel STORE key and retrieved using the RECALL key or host interface. Buffer Size, with timestamp and source setting: >60,000 samples. Buffer Size, without timestamp and source setting: >140,000 samples. SYSTEM EXPANSION: The TSP-Link expansion interface allows TSP-enabled instruments to trigger and communicate with each other. See figure below. Digital I/O Interface: SMU INSTRUMENTS Model 2651A specifications FRONT PANEL INTERFACE: Two-line vacuum fluorescent display (VFD) with keypad and navigation wheel. Display: Show error messages and user defined messages. Display source and limit settings. Show current and voltage measurements View measurements stored in dedicated (61/2-digit to 41/2-digit). reading buffers. GENERAL