iec.control is the ultimate, highly-sophisticated but easy-to-use software tool for all transient and PQF testing in the area of industrial electronics and telecom offering best benefit to its users. The continuously updated and extensive standards library is only one of these benefits.

The current version iec.control 9.0.1 offers:

• Windows 7, Windows 8 (64Bit) and Windows 10 compatibility
• Support of USB, RS 232, Ethernet and GPIB interfaces
• Support of Ethernet and optical USB interfaces for NX series
• Large and up-to-date library of basic, generic and product standards
• Enhanced and highly flexible reporting capabilites
• Up-to-date design and navigation
• Intuitive operation
• Support of NSG 1007 and NSG 2200-3 from TESEQ
• requires app.sw.industry V6.0.1

New standards implemented in the 9.0.x release:

• AIS-138 (Part 1) (2017-02)
• AIS-138 (Part 2) (2018-01)
• DIN EN 50121-4 (2017-11)
• DIN EN 50121-5 (2017-11)
• Ford FMC1280 (2018-12)
• Hyundai Kia ES96200-00 (2018-04)

New Devices and Equipment implemented in the 9.0.x release:

• NSG 3040A series
• NSG 3060A series
• DCD 5-A b-8-4
• DCD 5-A sr-8-4
• CDN 3043A-C32
• CDN 3063A-C32 /-C63 /-C100
• CDN 117A-C4-4-1 /-C6-4-1
• CDN 118A-C4-4-1 /-C6-4-1

New standards implemented in the 8.3.x release:

• DIN EN 50121-3-2 (2017-11)

New Devices and Equipment implemented in the 8.3.x release:

• coupling NX5-DC-bs-1-1000-32
• coupling NX7-DC-bs-1-1000-32
• DCD 5-A b-8-4
• DCD 5-A sr-8-4
• MFC 30
• MFC 300
• MFC 1000
• MFC 1000.1
• Tektronix MSO5x
• Keithley DMM 6500
• Keithley DMM 6500
• Keithley DAQ6510

New standards implemented in the 8.1.x release:

• CISPR35 (Edition 1, 2016-08)

New Devices and Equipment implemented in the 8.1.x release:

• compact NX7
• coupling NX7
• DCD 5 sr
• DCD 5 st
• DCD 7 sr
• DCD 7 st
• TSS 500N2iB
• Tektronix DPO 7354

New standards implemented in the 8.0.x release:

• DIN EN 61000-6-7 (2015-12)
• IEC 60255-27 (2013-10-15)
• IEC 61000-4-5 (Edition 3.1, 2017-08)
• IEC 61000-4-12 (Edition 3, 2017-07)
• IEC 61000-6-7 (Edition 1, 2014-10)
• IEC 61000-8-3 (Edition 3, 2017-02)
• IEC 61851-21-1 (Edition 1, 2017-06)
• Mercedes-Benz MBN 10284-3 (2015-07)
• Nissan 28400NDS91 (2012-03)
• OMIL R046-1-2 (2012)
• Renault 36-00-811 (2014-12)
• Telcordia GR-1089 (Issue 6, 2011-05)

New Devices and Equipment implemented in the 8.0.x release:

• UCS 500N7.15
• ix-Series (California Instruments)
• MX-Series (California Instruments
• LeCroy HDO 6104A

New standards implemented in the 7.1.x release:

• EN 50121-5 (2016-01)
• EN 50130-4 (2015-04)
• EN 50293 (2012-06)
• EN 60335-1 (2012-10)
• EN 60945 (2003-07)
• EN 61326-2-4 (Edition 2, 2012-07)
• EN 61326-3-1 (2008-11)
• EN 61326-3-2 (2008-11)
• EN 61543 (2006-06)
• EN 61547 (2010-03)
• EN 61800-3 (2012-09)
• EN 62020 (2005-11)
• EN 62052-11 (2003-11)
• IEC 60065 (Edition 8, 2014 -06)
• IEC 60669-2-1 (Edition 4.2, 2015-03)
• IEC 60945 (Edition 4, 2002-08)
• IEC 61000-6-5 (Edition 1, 2015-08)
• IEC 61204-3 (Edition 3, 2016-10)
• IEC 61326-1 (2012-07)
• IEC 61850-3 (Edition 2, 2013-12)
• Lloyd's Register (2013-07)
• GL (Germanischer Lloyd) (2012)
• SEMI F47-0706 (2006)
• OMIL R046-1-2 (2012)
• PSA B21 7112 (2015-09)

New Devices and Equipment implemented in the 7.1.x release:

• EFT 500N8.3
• OCS 500N6.20
• VSS 500N6.20
• VSS 500N15.3
• NSG 2200-1
• PCD 8 b-2-1500-400
• PCD 6 s-2-1400-400

New Devices implemented in the 7.0.x release:

• vsurge NX20
• NSG 1007
• NSG 2200-3

Standards implemented in the 6.0.x release:

• BMW - GS95002-3 (2015-12)
• DIN EN 55024 (2016-05)
• DNVGL-CG-0339 (2015-11)
• ETSI EN 300 386_V2.1.1 (2016-07)
• Hyundai Kia ES96200-00 (Revision L, 2014-03)
• Hyundai Kia ES96200-00 (Revision O, 2016-03)
• IEC 60601-1-2 (Edition 4, 2014-02)
• IEC 60947-2 (Edition 5, 2016-06)
• IEC 61000-4-9 (Edition 2, 2016-07)
• IEC 61000-4-10 (Edition 2, 2016-07)
• IEC 61000-4-34 (Edition 1.1, 2009-11)
• IEC 61000-6-1 (Edition 3, 2016-08)
• IEC 61000-6-2 (Edition 3, 2016-08)
• ITU-T K20 (2015-04)
• ITU-T K21 (2015-04)
• ITU-T K44 (A2, 2015-02)
• ITU-T K45 (2015-04）

iec.control supports the next generator simulators (NX-series, UCS 500 series) Surge and Telecom Surge simulators (VCS 500, VSS 500, CSS 500 and TSS 500 series) as well as Power Fail simulators (PFS 500 series).
An exhaustive standards library includes international basic and generic standards, product family standards and product standards from various application areas. Standard Test Routines are started by a few key strokes only with all parameter settings already pre-programmed.

In the Standard Pulse window you can select the required test level as requested for the test. All relevant parameters are automatically set accordingly. User Defined Test routines are easily created and saved to the test files library. User Defined Test routines based on standard test routines can be created in the Special Mode from each standard pulse window. In this mode all parameters are open to be changed.

Not only single tests, either user defined or based on standards, can be performed, but single Test routines can be linked together to form a complete test sequence. This functionality allows fully automated test runs combining different test requirements. Entire test installations can be integrated in one single test sequence. Minimum operator effort for maximum test results, easy and fast, reliable and reproducible.

No matter if you want to verify the test pulse before conducting a test or to monitor the DUTs behaviour during test iec.control controls the external measuring device via GPIB bus. Very few remote control commands are required to set-up your instrument. iec.control will log the requested data, being numeric values or graphics, safe and keep it ready to be included in the test report. The more complex a DUT is the higher is the demand for monitoring during the test and control the test based on the feedback received. A test can be stopped at the point any malfunction occurs. Or if less severe iec.control will set a mark which indicates where the DUT failed to operate as expected.