Agilent DC Power Analyzer Models: N6705A, N6715A, N6705B, N6715B, N6731B-36B, N6741B-46B, N6751-54A, N6761A-62A, N6773A-76A, N6781A-82A Technical Overview See insights into power consumption never seen before with Agilent’s new 2-quadrant source/measure units (SMUs) and 14585A control and analysis software For details visit www.agilent.com/find/N6700 www.agilent.
R&D Engineers are Under Time Pressure New Instrument Category for R&D Engineers to Increase Productivity Due to increasing time-to-market pressures, research and development engineers often find themselves on tight schedule to work through device under test (DUT) testing. Along with being driven faster, the R&D engineers can face a high regret factor should their haste result in damaging scarce, complex or expensive DUTs during product development.
Modular System Based on DC Power Supply Outputs Feature Benefit Integrates capabilities of power supply, DMM, scope, arb and datalogger Saves time by eliminating the need to find and interconnect multiple instruments. Provides synergistic functions not available from separately connected instruments. Large color graphics display Fast simple quick set up and monitoring. Ability to visualize results of multiple channels. Connections and controls color-coded to the display Fast set-up and control.
Voltmeter/Ammeter R&D engineers can invest in highperformance outputs where speed and accuracy are needed, or purchase basic performance outputs for simple DC power requirements. In the future, as your test needs change, you can purchase different modules and swap them into the DC power analyzer, thus creating a solution that protects your investment and grows with you. Each DC power module output is fully isolated and floating from ground and from each other.
Oscilloscope Each DC power module in the Agilent N6705 DC power analyzer has a fully integrated digitizer to capture the actual voltage versus time and current versus time being sourced out of the DC output into the DUT. This digitized data is displayed on the large color display just like an oscilloscope. Because this oscilloscope function is builtin, it is possible to make current measurements without current sense resistors, current shunts, or current probes.
Datalogger The Agilent N6705 DC power analyzer can also function as a datalogger. Using the measurement capability built into each DC power module, the N6705 can continuously log data to the large color display and to a file. Data can be logged all four DC outputs at the same time. The accuracy of the logged voltage and current measurements are based on the type of module that is installed (basic, high-performance, precision, and SMU).
Arbitrary Waveform Generator Each DC power output on the Agilent N6705 DC power analyzer can be modulated by the module’s built-in arbitrary waveform generator function. This permits the DC output to act as a DC bias transient generator or power arbitrary waveform generator. The maximum bandwidth is based on the type of module that is installed (basic, highperformance, precision, and SMU). See page 21 for a table that lists the bandwidth for each DC power module type.
Additional Features This capability is also supported to link Agilent N6705 output sequences with outputs installed in N6700B, N6701A and N6702A Low-Profile Modular Power System mainframes. It is not supported on N6700A mainframes. Figure 10. The Output On/Off Delays screen allows you to enter the delay times for each output. A graphical representation of the settings is shown to visually confirm your choices.
switching between 2-wire mode (local sensing) and 4-wire mode (remote sensing) is done via an internal relay inside the N6705 DC power analyzer, eliminating the need for shorting bars or jumpers commonly found on other bench power sources. DC power modules offer low noise outputs Careful attention has been paid to this design to ensure low normal mode noise (ripple and peak-peak) as well as low common mode noise.
ideally suited for semiconductor and passive device testing, or where a precisely controlled output and highly accurate, precise measurements are needed during test. For even higher performance, the N6780 Series of SMU modules provides accuracies down to nanoamperes. Use the N6730/40/70 DC power modules for basic DC bias Not all testing require high performance power supplies.
Output disconnect and polarity reversal relays Modules in the Agilent N6705 can be individually ordered with optional Output Disconnect Relays (option 761) or Output Disconnect/Polarity Reversal Relays (option 760). See table on page 29 for option 760 and 761 availability. All relays are built into the module, so no additional wiring is needed to get the relay function.
Makes a great tool for ATE systems that require an advanced user interface for test and debug While the Agilent N6705 DC power analyzer is designed primarily as an R&D bench tool, customers building ATE systems may find the Agilent N6705 has great utility in an ATE system. It is fully programmable, LXI class C certified, and takes the same commands as the Agilent N6700.
Choosing the Right DC Power Modules to Meet Your Testing Needs See detailed specifications on page 14 N6780 Series For applications where multiquadrant operation and highprecision are required N6750 Series For applications where the power supply plays a critical role The Agilent N6750 Series of highperformance, auto ranging DC power modules provides low noise, high accuracy and output voltage changes that are up to 10 to 50 times faster than other power supplies.
Agilent N6751A/N6752A, N6754A and N6761A/N6762A Performance Specifications Unless otherwise noted, specifications are warranted over the ambient temperature range of 0 to 55°C after a 30-minute warm-up period, with each module’s sense terminals externally jumpered directly to their respective output terminals (local sensing). Note: Performance specifications for the N6780 SMU modules can be found at www.agilent.com/find/N6780.
Agilent N6751A/N6752A, N6754A and N6761A/N6762A Supplemental Characteristics Supplemental characteristics are not warranted but are descriptions of performance determined either by design or type testing. All supplemental characteristics are typical unless otherwise noted. N6751A / N6752A N6753A N6754A N6761A / N6762A 10 mV – 24.48 V N/A 50 mA – 51 A 25 mV – 61.2 V N/A 20 mA – 20.4 A Current low range (≤ 0.1 A) 20 mV – 51 V N/A 10 mA – 5.1 A/ 10 mA – 10.2 A N/A N/A N/A 15 mV – 51 V 12 mV – 5.
Agilent N6751A/N6752A, N6754A and N6761A/N6762A Supplemental Characteristics (Continued) N6751A / N6752A N6753A NOTE 4 N6754A N6762A N6761A / For voltage change of up-programming time 0 to 10 V 0.2 ms 0 to 6 V 0.3 ms 0 to 15 V 0.35 ms 0 to 10 V 0.6 ms For voltage change of up-programming time 0 to 50 V 1.5 ms 0 to 20 V 1.5 ms 0 to 60 V 2.0 ms 0 to 50 V 2.
Agilent N6731B – N6736B and N6741B – N6746B Performance Specifications Unless otherwise noted, specifications are warranted over the ambient temperature range of 0 to 55°C after a 30-minute warm-up period, with each module’s sense terminals externally jumpered directly to their respective output terminals (local sensing) N6731B/ N6741B N6732B/ N6742B N6733B/ N6743B N6734B/ N6744B N6735B/ N6745B N6736B/ N6746B 5V 10 A / 20 A 50 W / 100 W 8V 6.25 A / 12.5 A 50 W / 100 W 20 V 2.
Agilent N6731B – N6736B and N6741B – N6746B Supplemental Characteristics Supplemental characteristics are not warranted but are descriptions of performance determined either by design or type testing. All supplemental characteristics are typical unless otherwise noted. Programming ranges N6731B/ N6741B N6732B/ N6742B N6733B/ N6743B N6734B/ N6744B N6735B/ N6745B N6736B/ N6746B 15 mV – 5 .1 V 60 mA – 10.2 A/ 60 mA – 20.4 A 15 mV – 8 .16 V 40 mA –6.375 A/ 40 mA – 12.75 A 30 mV – 20.4 V 10 mA – 2.
Agilent N6773A – N6776A Performance Specifications Unless otherwise noted, specifications are warranted over the ambient temperature range of 0 to 55°C after a 30-minute warm-up period, with each module’s sense terminals externally jumpered directly to their respective output terminals (local sensing). N6773A N6774A N6775A N6776A 20 V 15 A NOTE 3 300 W 35 V 8.
Agilent N6773A – N6776A Supplemental Characteristics Supplemental characteristics are not warranted but are descriptions of performance determined either by design or type testing. All supplemental characteristics are typical unless otherwise noted N6773A N6774A N6775A N6776A Voltage Current 30 mV – 20.4 V 30 mA – 15.3 A 40 mV – 35.7 V 15 mA – 8.67 A 70 mV – 61.2 V 7.5 mA – 5.1 A 100 mV – 102 V 4.5 mA – 3.06 A Voltage Current 7 mV 9 mA 10 mV 6 mA 18 mV 3 mA 28 mV 1.
Agilent N6705 DC Power Analyzer Supplemental Characteristics Supplemental characteristics are not warranted but are descriptions of performance determined either by design or by type testing. All supplemental characteristics are typical unless otherwise noted. Arbitrary waveform generator maximum bandwidth Maximum bandwidth is based on a sine wave into a resistive load and applies to any output current level.
Agilent N6705 DC Power Analyzer Supplemental Characteristics (Continued) Supplemental characteristics are not warranted but are descriptions of performance determined either by design or by type testing. All supplemental characteristics are typical unless otherwise noted. Arbitrary waveform generator maximum bandwidth Maximum bandwidth is based on a sine wave into a resistive load and applies to any output current level.
Agilent N6705 DC Power Analyzer Supplemental Characteristics (Continued) Supplemental characteristics are not warranted but are descriptions of performance determined either by design or by type testing. All supplemental characteristics are typical unless otherwise noted. Arbitrary waveform generator maximum bandwidth Maximum bandwidth is based on a sine wave into a resistive load and applies to any output current level.
Agilent N6705 DC Power Analyzer Supplemental Characteristics (Continued) Supplemental characteristics are not warranted but are descriptions of performance determined either by design or by type testing. All supplemental characteristics are typical unless otherwise noted. Arbitrary waveform generator maximum bandwidth Maximum bandwidth is based on a sine wave into a resistive load and applies to any output current level.
Agilent N6705A and N6705B DC Power Analyzer Mainframes N6705A, N6705B Maximum total output power N6705A, N6705B (= Sum of total module output power) Command processing time Protection response characteristics Digital control characteristics From receipt of command to start of the output change 600 W when operating from 100 – 240 VAC input ≤ 1 ms INH input 5 µs from receipt of inhibit to start of shutdown Fault on coupled outputs < 10 µs (from receipt of fault to start of shutdown) Maximum voltag
Agilent N6705A and N6705B DC Power Analyzer Mainframes (Continued) N6705A, N6705B Regulatory compliance EMC Complies with the European EMC directive for Class A test and measurement products. Complies with the Australian standard and carries the C-Tick mark. This ISM device complies with Canadian ICES-001. Cet appareil ISM est conforme à la norme NMB-001 du Canada. Electrostatic discharges greater than 1 kV near the I/O connectors may cause the unit to reset and require operator intervention.
Autoranging Characteristic Voltage Voltage Precision Outputs Autoranging 50 W Output 50 V 50 V 50 W Curve 33 V 10 V 0 1A 5A Current 0 Voltage Voltage Voltage N6754A Autoranging 300 W Output Autoranging 100 W Output 60 V 50 V 100 W Curve 300 W Curve 6V 15 V 2A 8.33 A 10 A N6753A Autoranging 300 W Output 20 V 300 W Curve 12 V 8.5 V 0 Current 1 A 1.5 A – 50 W output 2 A 3 A – 100 W output Current 0 5A 20 A Current 0 15 A 50 A Outline Diagram 272.6 mm 10.733 in 425.6 mm 16.
Ordering Information The DC power analyzer system is available 2 ways: (1) You can order an N6705B mainframe and various modules as separate products. (See steps below.) Each item will arrive in a separate box such that you can assemble the analyzer yourself when you need to. (2) You can order an N6715B system, which is a build-to-order DC power analyzer system that is shipped as a fully assembled multiple-output power supply. (See pages 30 and 31 for N6715B ordering information.
Ordering Information Modules Order 1 to 4 modules to be installed in each N6705 DC power analyzer mainframe. (To order modules as part of the N6715 build-to-order systems, see page 31). If the sum of the power of the modules exceeds the available output power rating on the mainframe, see page 12 for an explanation of Agilent’s power management capability. Modules N6730 50 W DC power modules N6740 100 W DC power modules You can individually specify each option for each module.
Ordering Information N6715B build-to-order systems To purchase a DC power analyzer system, order a N6715B. This model number is a build-to-order system that is shipped as a fully tested and assembled instrument. Each system consists of one mainframe plus optionally 1 to 4 modules. Each mainframe has 4 module slots to hold modules. Each module occupies one module slot, except for the N6754A, which occupies 2 module slots per module.
Ordering Information Modules as options to N6715B To order 1 to 4 modules as options to an N6715B, specify its model number, followed by “–ATO.” For example, to order an N6731B as an option to the N6715B, you would specify “N6731B– ATO” as the option. (To order modules as separate products, see page 29.) If the sum of the power of the modules exceeds the available output power rating on the mainframe, see page 12 for an explanation of Agilent’s power management capability.
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