icd.control  is the dedicated software for all conducted immunity testing using AMETEK CTS generators. Adopted to the generator to be controlled it offers intuitive still sophisticated set-up and user guidance, allowing fast and reliable testing, easy and convenient.
An extensive library of standards, a number of pre-programmed drivers to control external measuring devices and a high-sophisticated reporting tool are just a few highlights.

The current version icd.control 6.2.1 offers:

• Windows 7, Windows 8 and Windows 10 compatibility
• Support of USB, RS232 and GPIB interfaces
• Library of the latest international standards, as well as manufacturer
  requirements for automotive conducted immunity testing
• Enhanced and highly flexible reporting capabilites
• Control of external measuring and data logger instruments
• Power calibration capability as proposed in the actual IEC 61000-4-6 Ed.4 and used by a number of test labs
• Up-to-date design and navigation
• Intuitive operation

New standards implemented in the 6.2.x release:

• CISPR35 (Edition 1, 2016-08)
• DIN EN 50121-3-2 (11-2017)
• Ducati DMH 34-03.001 (Edition 4, 2015-10)
• Ford FMC1278 (2018-12)
• Ford FMC1280 (2018-12)
• Hyundai Kia ES96200-00 (2018-04)
• John Deere JDQ 203 (2018-04)
• MAN 3285 (2011-09)
• Toyota TSC0501G (04-2014)
• VW TL 810 00 (2018-03)

New Devices and Equipment implemented in the 6.2.x release:

• SW 4070
• CN 60255-26
• IFI: SCDX Series amplifier
• IFI: SMX Series amplifier
• Keithley DMM6500
• Keithley DAQ6510

New Devices and Equipment implemented in the 6.1.x release:

• Keysight MSO-X-3054A
• Tektronix MSO5x

New standards implemented in the 6.1.x release:

• MIL-STD-461D/E/F/G - CS114
• MIL-STD-461D/E/F/G - CS101
• Karma C1800STA0130 (Revision 2, 2010-05)
• IEC 60669-2-1 (Edition 4.2, 2015-03)
• IEC 61204-3 (Edition 3, 2016-10)
• EN 61326-2-4 (Edition 2, 2012-07)
• CAT EC42 (Version 4, 2015-05)
• CTCT EMC-1 (Revision 1, 2016-04)
• Nissan 28401NDS02 [8] (2016-03)
• ISO TS 7637-4 (2017-03)

New Devices and Equipment implemented in the 6.0.x release:

• NSG 4060
• NSG 4070C-0, -35, -40, -45, -80, -110
• NSG 4070B-0, -35, -40, -45, -80
• NSG 4060-1
• LeCroy HDO 6104A

New Couplings and Attenuations implemented in the 6.0.x release:

• TESEQ CN M532-AC, M432-AC, M5432-3LN-AC,
• TESEQ CN M4100-AC
• TESEQ CN M332-AC, CN M232-AC
• TESEQ CN M332-DC, CN M232-300-DC
• TESEQ Coil INA 702
• TESEQ Transformer CT 419-5
• TESEQ Current Probe CIP 9136
• TESEQ Stripline SL 50, SL50s, SL 90, SL 150
• TESEQ Transformer CT 419-5
• TESEQ KEMZ 801
• TESEQ CDND M316-2

New standards implemented in the 6.0.x release:

• EN 50579 (2012-01)
• IEC 61000-4-16 (Edition 2, 2015-12)
• DIN EN 61000-4-6 (2014-08)
• DIN EN 61000-4-16 (2016-10)
• DIN EN 61000-4-19 (2015-03)
• IEC 61000-4-16 (Edition 2, 2015-12)
• DIN EN 61000-6-1 (2016-05)
• DIN EN 61000-6-2 (2016-05)
• DIN EN 61000-6-7 (2015-12)
• IEC 61000-6-1 (Edition 3, 2016-08)
• IEC 61000-6-2 (Edition 3, 2016-08)
• DIN EN 60601-1-2 (2016-05)
• DIN EN 60601-2-25 (2016-08)
• IEC 60601-1-2 (Edition 3, 2007-03)
• IEC 60601-1-2 (Edition 4, 2014-02)
• IEC 60601-2-25 (Edition 2, 2011-10)
• CLC-TR 50579 (2012-08)
• DIN EN 12016 (2013-12)
• EN 55024 (2009-06)
• EN 55024 (2016-01)
• DIN EN 60255-26 (2014-03)
• DIN EN 62020 (2005-11)
• DIN EN 62132-4 (2006-10)
• IEC 61326-3-2 (Edition 1, 2008-01)
• IEC 61850-3 (Edition 2, 2013-02)
• IEC 62132-4 (Edition 1, 2006-02)

New Manufacturer Standards in the 6.0.x release:

• BSH EMV-AB (2016-04)
• DNBVGL-CG-0339 (2015-11)
• IEC 60533 (Edition 3, 2015-08)
• Lloyd's Register Type Approval System (2013)
• MIL-STD-461G (2015-12)
• Defense Standard 59-411 - Part 3 (2014-03)
• Boeing D6-16050-4 (Issue D, 2002-06)
• Boeing D6-16050-5 (Issue C, 2006-09)
• BMW GS 95002 (2012-09)
• Case New Holland ENS0310 (Revision K, 2013-12)
• Fiat CS.00054 (2015-01)
• Ford FMC1278 (Revision 2, 2016-10)
• General Motors GMW 3097 (2015-06)
• Hyundai-Kia ES96200-00 (Revision L, 2014-03)
• Hyundai-Kia ES96200-00 (Revision O, 2016-03)
• ISO 11451-4 (Edition 3, 2013-03)
• ISO 11452-7 (Edition 2, 2003-11)
• ISO 11452-8 (Edition 2, 2015-06)
• Jaguar JLR-EMC-CS (Version 1, 2015-02)
• John Deere JDQ 203 (2013-02)
• McLaren MSL03040063 (2013-04)
• Mercedes-Benz MBN 10 284-2 (2015-07)
• Nissan 28401 NDS02 [6] (2013-01)
• Nissan 28401 NDS02 [7] (2014-09)
• PSA B21 7110 (Revision E, 2015-09)
• SsangYong SES-E-922 (Issue 5, 2013-10)
• Tesla TS-0000048-03 (2013-05)
• Volkswagen VW TL 81000 (2016-02)
• Volkswagen VW TL 82531-3 (2012-06)
• Volvo REQ-043878 (Revision 2, 2014-02)
• Volvo STD 1579908 (Issue 4, 2003-11)
• Volvo STD 31850329 (Revision 4, 2014-06)
• and more

New standards implemented in the 5.3.x release:

• IEC 61000-4-6 Ed.4 (2013-10)
• EN 50579 (2012-01)
• ISO 11451-4 (2006)
• BMW - GS 95002-2 (2013-07)
• BMW - GS95025-1 (2012-05)
• EN 12016 (2004-04)
• DIN EN 60945 (2003-07)
• IEC 60255-26 (Edition 3, 2013-05)
• IEC 60947-2 (Edition 4.1, 2009-05)
• IEC 61000-4-19
• IEC 61000-6-7
• IEC 61204-3 (Edition 2, 2011-06)
• Fiat - 9-90111-01 (2012-06)
• Germanischer Lloyd SE - VI-7-2 Prüfanforderungen (2012)
• Jaguar - EMC-CS-2010JLR (Version 1.2, 2012-06)
• Lloyd's Register Type Approval System (2002)
• Nissan - 28401 NDS 02 (Rev.5, 2010-12
• Proton - PES-6022 (2010-10)
• PSA - B21 7110 D (2012-07)
• Renault - 36-00-808-M (2012-07)
• Telcordia GR-1089-CORE (Issue 6, 2011-05)
• Volkswagen - TL 81000 (2013-02)
• DO 160F - Sections 16 and 18
• Defence Standard 59-411 Part 3 - DRS01
• and more

ICD 为不同的应用领域提供众多标准测试程序。操作起来也非常简单。使用标准测试程序，能够快速而有效地完成测试。
此外，如果需要满足高于基本要求的特殊测试需求，用户还可以调整标准测试程序，并将其存为用户自定义测试程序，从而避免了从头设置测试程序所带来的麻烦。用户自定义测试程序的设置不但简单、迅速，而且有效。

 

对于那些特别复杂的测试需求，很难用普通的方式进行设置。针对这种情况，ICD 提供了向量设置模式。一个测试序列可以由不同的向量定义而成，其中每一个向量都包含一套开始频率（水平）和结束频率（水平）参数。即使是较为复杂的测试需求，也能通过向量模式轻松设置并进行测试。

 

功率表、示波器、光谱分析仪等外部测量设备，都可以被轻松地应用在测量注入射频测试信号或监控被测设备的过程中。ICD 数据记录器能够兼容几乎任何一种带有GPIB接口的测量设备。
通过ICD，可以登录多达四个单频道仪器，或任何相关的多频道设备，而且每一个频道都能被单独控制。来自外部仪器的反馈信号还可以被当作中断信号用来控制测试流程。

ICD 的报告功能非常强大。报告中包含详尽的测试数据，对所有失效事件的注释、关于测试等级的图表和信息、阻抗特性和来自外部测量设备的记录数据都包含其中。还可加入关于测试设置的图表信息，从而形成更完备的测试文档。
测试报告会被自动转换为RTF 格式，可以通过任何识别RTF格式的软件工具（如：Microsoft Word）进行编辑。

ICD 提供各种校准模式用来设置测试等级。步长可被设置为CWS 500 控制模式下的最小步长。诸如IEC 60601-1-2 中为医疗设备做出的特殊规定（只允许正电水平误差）也能满足。
在校准模式中，还可以从CWS 500 中下载校准数据，或将校准数据上传到CWS 500。