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Safety precautions

The following safety precautions should be observed before using this product and any 

associated instrumentation. Although some instruments and accessories would normally be 

used with nonhazardous voltages, there are situations where hazardous conditions may be 

present. 
This product is intended for use by personnel who recognize shock hazards and are familiar 

with the safety precautions required to avoid possible injury. Read and follow all installation, 

operation, and maintenance information carefully before using the product. Refer to the user 

documentation for complete product speci

 cations. 

If the product is used in a manner not speci

 ed, the protection provided by the product 

warranty may be impaired. 
The types of product users are: 

Responsible body

 is the individual or group responsible for the use and maintenance of  

equipment, for ensuring that the equipment is operated within its speci

 cations and operating 

limits, and for ensuring that operators are adequately trained. 

Operators

 use the product for its intended function. They must be trained in electrical safety 

procedures and proper use of the instrument. They must be protected from electric shock and 

contact with hazardous live circuits. 

Maintenance personnel

 perform routine procedures on the product to keep it operating 

properly, for example, setting the line voltage or replacing consumable materials. Maintenance 

procedures are described in the user documentation. The procedures explicitly state if the 

operator may perform them. Otherwise, they should be performed only by service personnel. 

Service personnel

 are trained to work on live circuits, perform safe installations, and 

repair products. Only properly trained service personnel may perform installation and 

service procedures. 
Keithley products are designed for use with electrical signals that are measurement, control, 

and data I/O connections, with low transient overvoltages, and must not be directly connected 

to mains voltage or to voltage sources with high transient overvoltages. Measurement 

Category II (as referenced in IEC 60664) connections require protection for high transient 

overvoltages often associated with local AC mains connections. Certain Keithley measuring 

instruments may be connected to mains. These instruments will be marked as category II 

or higher. 
Unless explicitly allowed in the speci

 cations, operating manual, and instrument labels, do 

not connect any instrument to mains. 
Exercise extreme caution when a shock hazard is present. Lethal voltage may be present on 

cable connector jacks or test 

 xtures. The American National Standards Institute (ANSI) 

states that a shock hazard exists when voltage levels greater than 30 V RMS, 42.4 V peak, 

or 60 VDC are present. A good safety practice is to expect that hazardous voltage is present 

in any unknown circuit before measuring. 
Operators of this product must be protected from electric shock at all times. The responsible 

body must ensure that operators are prevented access and/or insulated from every 

connection point. In some cases, connections must be exposed to potential human contact. 

Product operators in these circumstances must be trained to protect themselves from the risk 

of electric shock. If the circuit is capable of operating at or above 1000 V, no conductive part of 

the circuit may be exposed. 
Do not connect switching cards directly to unlimited power circuits. They are intended to be 

used with impedance-limited sources. NEVER connect switching cards directly to AC mains. 

When connecting sources to switching cards, install protective devices to limit fault current and 

voltage to the card. 
Before operating an instrument, ensure that the line cord is connected to a properly-grounded 

power receptacle. Inspect the connecting cables, test leads, and jumpers for possible wear, 

cracks, or breaks before each use. 
When installing equipment where access to the main power cord is restricted, such as rack 

mounting, a separate main input power disconnect device must be provided in close proximity 

to the equipment and within easy reach of the operator. 
For maximum safety, do not touch the product, test cables, or any other instruments while 

power is applied to the circuit under test. ALWAYS remove power from the entire test system 

and discharge any capacitors before: connecting or disconnecting cables or jumpers, 

installing or removing switching cards, or making internal changes, such as installing or 

removing jumpers. 

Summary of Contents for KEITHLEY 4200A-SCS-PKC

Page 1: ...Model 4200A SCS PKC High Power I V C V Parameter Analyzer Quick Start Guide...

Page 2: ...r high transient overvoltages often associated with local AC mains connections Certain Keithley measuring instruments may be connected to mains These instruments will be marked as category II or highe...

Page 3: ...the associated information very carefully before performing the indicated procedure The CAUTION heading in the user documentation explains hazards that coulddamage the instrument Such damage may inva...

Page 4: ...tive humidity non condensing Storage temperature 15 C to 60 C 5 to 90 relative humidity non condensing CAUTION Carefully consider and configure the appropriate output off state source levels and compl...

Page 5: ...tart Guide This document It provides unpacking instructions describes basic connections reviews basic operation information and provides a quick test procedure to ensure the instrument is operational...

Page 6: ...gns of physical damage Report any damage to the shipping agent immediately CAUTION The 4200A SCS weighs approximately 27 kg 60 lb and requires a two person lift CAUTION Do not lift the 4200A SCS using...

Page 7: ...adapters four 5 CS 701 BNC tee adapters two 6 4200 MTRX ultra low noise SMU triaxial cables two 7 Safety interlock cable 8 4200 PA remote preamplifier two 9 4200 TRX ultra low noise triaxial cables tw...

Page 8: ...the device under test DUT to protect the operator from flying debris in the event of a system or DUT failure Make sure any test fixture connected to the system protects the operator from contact with...

Page 9: ...f the fixture is open It also enables the 4200A SCS to output higher voltages when the exterior enclosure of the fixture is closed When the safety interlock signal is asserted the switch is closed and...

Page 10: ...ge fixtures such as the 8101 PIV are intended for applications that are less than 40 V For these applications an interlock is not needed High voltage test fixtures can be used with applications that a...

Page 11: ...ixture Test connections If you are testing discrete devices you need a test fixture that is equipped with 3 lug triaxial connectors The 8101 PIV test fixture that is included with the 4200A SCS PKC al...

Page 12: ...Connect a test fixture and DUT to the 4200A SCS If you are using the supplied test fixture connect the MOSFET and test fixture as shown in this diagram...

Page 13: ...cable that connects 4200 PA to a test fixture 3 4200 MTRX 1 Ultra low noise SMU triaxial cable mini triaxial connects 4201 SMU units to a test fixture 4 TG 439 nMOSFET DUT 1 Plug into the test socket...

Page 14: ...ounded outlets When proper connections are made the instrument chassis is connected to power line ground through the ground wire in the power cord In addition a redundant protective earth connection i...

Page 15: ...end of the line cord into a properly grounded ac line power receptacle 3 Turn on the 4200A SCS by pushing the power switch The switch is lit when power is on The instrument starts up NOTE When first s...

Page 16: ...to 60 Hz If the setting is wrong the 4200A SCS cannot properly reject the powerline measurement noise To change powerline frequency 1 Close Clarius 2 Run KCon 3 From the System Configuration list sel...

Page 17: ......

Page 18: ...on a MOSFET The first time Clarius opens the project tree is displayed and the default project is loaded The next graphic shows the tests in this project To work with a test 1 Select vds id located un...

Page 19: ...est 2 The vds id settings should be SMU3 Provide a voltage step function for four different gate voltages 2 V 3 V 4 V and 5 V SMU2 Perform a 51 point sweep of drain voltage 0 V to 5 V at each gate vol...

Page 20: ...t only that test will run For example in the following graphic when you select only the vds id test will run In the following example one test is run To run the vds id test 1 In the project tree selec...

Page 21: ...ce of tests check the tests you want to run then check and select the device subsite or project item that contains the tests For example in the following graphic when you click all the checked tests u...

Page 22: ...can use the Analyze sheet which is similar to a Microsoft Excel spreadsheet and the graph To view vds id test results 1 Select Analyze 2 Select an icon next to View to choose the type of information...

Page 23: ...e data graph or both to an external file To save your test data 1 Select Save Data 2 On the Save Test Data As dialog box select one of the following buttons Save Sheet Select this to save only the she...

Page 24: ...Settings button To customize a graph 1 Select Graph Settings 2 To include a Legend and Title select those options from the Graph Settings menu 3 To use different colors for the graph series select Gr...

Page 25: ...I V Test...

Page 26: ...Make connections for the C V test If you are using the supplied test fixture connect the nMOSFET and test fixture as shown in this diagram...

Page 27: ...er Analyzer 1 2 CA 447A cables 4 SMA cable male to male 100 1 5 m 3 4200 MTRX 2 SMA tee adapter female male female 4 TG 439 nMOSFET DUT 1 5 8101 PIV Component Test Fixture 1 Plug into PULSE IV test so...

Page 28: ...osfet This test is located under the 4terminal n fet device In the Configure pane on the next page is where you define the test In the test shown the device is connected to the CVH1 and CVL1 terminals...

Page 29: ...mosfet settings should be CVH1 Default setting which is Voltage Linear Sweep is swept from 5 V to 5 V in 0 2 V steps with a 1 MHz capacitance measurement made at each step CVL1 Default setting which i...

Page 30: ...test is run To run the cv nmosfet test 1 In the project tree select cv nmosfet to highlight it 2 On the toolbar select When the test is running Run shows two arrows circling the icon and Stop turns re...

Page 31: ...ata you can use the Analyze sheet which is similar to a Microsoft Excel spreadsheet or the graph To view cv nmosfet test results 1 Select Analyze 2 Select an icon next to View to choose the type of in...

Page 32: ...n external file To save your test data 1 Select Save Data 2 If you are saving a graph select the Graph File Format 3 On the Save Test Data As dialog box select one of the following buttons Save Sheet...

Page 33: ...graph is shown here In this example the C V curve is measured between the gate and the source drain bulk Notice that the COX CFB and VFB parameters are extracted and displayed on the screen You can cu...

Page 34: ...fixture Also check the connections from the DUT to the test fixture socket I cannot unplug the mini triaxial cable 4200A MTRX from the SMU What should I do The mini triaxial connector is a locking co...

Page 35: ...us Manual Provides comprehensive information about projects tests data analysis data calculation user libraries and customizing Clarius Hardware manuals for setup and maintenance source measure units...

Page 36: ...S and foreign patents issued and pending Information in this publication supersedes that in all previously published material Specification and price change privileges reserved TEKTRONIX and TEK are r...

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