ANSI STM11.13-2017 The Protection of Electrostatic Discharge Susceptible Items Two-Point Resistance Measurement.pdf

1、 ANSI/ESD STM11.13-2018 Limited Revision of ANSI/ESD STM11.13-2015 For the Protection of Electrostatic Discharge Susceptible Items Two-Point Resistance Measurement Electrostatic Discharge Association 7900 Turin Road, Bldg. 3 Rome, NY 13440 An American National Standard Approved June 15, 2018 ANSI/ES

2、D STM11.13-2018 ESD Association Standard Test Method for the Protection of Electrostatic Discharge Susceptible Items - Two-Point Resistance Measurement Approved November 8, 2017 EOS/ESD Association, Inc. ANSI/ESD STM11.13-2018 Electrostatic Discharge Association (ESDA) standards and publications are

3、 designed to serve the public interest by eliminating misunderstandings between manufacturers and purchasers, facilitating the interchangeability and improvement of products, and assisting the purchaser in selecting and obtaining the proper product for his particular needs. The existence of such sta

4、ndards and publications shall not, in any respect, preclude any member or non-member of the Association from manufacturing or selling products not conforming to such standards and publications. Nor shall the fact that a standard or publication is published by the Association preclude its voluntary u

5、se by non-members of the Association, whether the document is to be used either domestically or internationally. Recommended standards and publications are adopted by the ESDA in accordance with the ANSI Patent policy. Interpretation of ESDA Standards: The interpretation of standards in-so-far as it

6、 may relate to a specific product or manufacturer is a proper matter for the individual company concerned and cannot be undertaken by any person acting for the ESDA. The ESDA Standards Chairman may make comments limited to an explanation or clarification of the technical language or provisions in a

7、standard, but not related to its application to specific products and manufacturers. No other person is authorized to comment on behalf of the ESDA on any ESDA Standard. THE CONTENTS OF ESDAS STANDARDS AND PUBLICATIONS ARE PROVIDED “AS-IS,” AND ESDA MAKES NO REPRESENTATIONS OR WARRANTIES, EXPRESSED

8、OR IMPLIED, OF ANY KIND WITH RESPECT TO SUCH CONTENTS. ESDA DISCLAIMS ALL REPRESENTATIONS AND WARRANTIES, INCLUDING, WITHOUT LIMITATION, WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE OR USE, TITLE AND NON-INFRINGEMENT. ESDA STANDARDS AND PUBLICATIONS ARE CONSIDERED TECHNICALLY SOUN

9、D AT THE TIME THEY ARE APPROVED FOR PUBLICATION. THEY ARE NOT A SUBSTITUTE FOR A PRODUCT SELLERS OR USERS OWN JUDGEMENT WITH RESPECT TO ANY PARTICULAR PRODUCT DISCUSSED, AND ESDA DOES NOT UNDERTAKE TO GUARANTEE THE PERFORMANCE OF ANY INDIVIDUAL MANUFACTURERS PRODUCTS BY VIRTUE OF SUCH STANDARDS OR P

10、UBLICATIONS. THUS, ESDA EXPRESSLY DISLAIMS ANY RESPONSIBILITY FOR DAMAGES ARISING FROM THE USE, APPLICATION, OR RELIANCE BY OTHERS ON THE INFORMATION CONTAINED IN THESE STANDARDS OR PUBLICATIONS. NEITHER ESDA, NOR ITS PRESENT OR FORMER MEMBERS, OFFICERS, EMPLOYEES OR OTHER REPRESENTATIVES WILL BE LI

11、ABLE FOR DAMAGES ARISING OUT OF, OR IN CONNECTION WITH, THE USE OR MISUSE OF ESDA STANDARDS OR PUBLICATIONS, EVEN IF ADVISED OF THE POSSIBILITY THEREOF. THIS IS A COMPREHENSIVE LIMITATION OF LIABILITY THAT APPLIES TO ALL DAMAGES OF ANY KIND, INCLUDING, WITHOUT LIMITATION, LOSS OF DATA, INCOME OR PRO

12、FIT, LOSS OF OR DAMAGE TO PROPERTY AND CLAIMS OF THIRD PARTIES. Published by: Electrostatic Discharge Association 7900 Turin Road, Bldg. 3 Rome, NY 13440 Copyright 2018 by EOS/ESD Association, Inc. All rights reserved No part of this publication may be reproduced in any form, in an electronic retrie

13、val system or otherwise, without the prior written permission of the publisher. Printed in the United States of America ISBN: 1-58537-299-4CAUTION NOTICE DISCLAIMER OF WARRANTIES DISCLAIMER OF GUARANTY LIMITATION ON ESDAs LIABILITY ANSI/ESD STM11.13-2018 i (This foreword is not part of ESD Associati

14、on Standard Test Method ANSI/ESD STM11.13-2018) FOREWORD This standard test method 1 has been developed to establish a test method for measuring resistance where the concentric ring electrodes of ANSI/ESD STM11.11 cannot be used. This method measures the resistance between two points on a materials

15、surface without consideration of the materials means of achieving conductivity. Constant voltage instrumentation was used to collect the data used to validate this standard test method. Other instrumentation using an open circuit rated voltage supply is represented in this document as guidance. Bene

16、ficial comments (recommendations, additions, deletions) and pertinent data, which may be of use in improving future versions of this document, should be addressed to: ESD Association, 7900 Turin Road, Bldg. 3, Rome, NY 13440. This standard test method was originally designated ANSI/ESD STM11.13-2004

17、 and approved on September 19, 2004. ANSI/ESD STM11.13-2015 was a revision of ANSI/ESD STM11.13-2004 and was approved on February 10, 2015. ANSI/ESD STM11.13-2018 is a limited revision of ANSI/ESD STM11.13-2015 and was approved on November 8, 2017. At the time ANSI/ESD STM11.13-2018 was prepared, th

18、e 11.0 Packaging Subcommittee had the following members: David E. Swenson Affinity Static Control Consulting, LLC Kevin Duncan Seagate Technology Kurt Edwards Lubrizol Conductive Polymers Reinhold Gaertner, TAS Rep Infineon Technologies David Girard Honeywell Aerospace Shane Heinle Digi-Key Electron

19、ics Douglas Holtz Conductive Containers, Inc. Chuck McClain NorthWest Electrostatic Services Gene Monroe NASA-LARC Daniel OBrian University of Dayton Research Institute Dale Parkin Seagate Technology Rachel Rienstra Lockheed Martin Space Systems Company Francisco Rodriquez 3M Tom Rogers Polyonics Je

20、ff Salisbury Finisar Matt Strickland L3 Technologies Julius Turangan Dou Yee Enterprises Robert Vermillion RMV Technology Group, LLC Scott Ward Texas Instruments, Inc. Stanley Weitz Electro-Tech Systems, Inc. Craig Zander Transforming Technologies 1 ESD Association Standard Test Method (STM): A defi

21、nitive procedure for the identification, measurement and evaluation of one or more qualities, characteristics or properties of a material, product, system or process that yield a reproducible test result. ANSI/ESD STM11.13-2018 ii The following individuals contributed to the development of ANSI/ESD

22、STM11.13-2015 and ANSI/ESD STM11.13-2004: Ben Baumgartner ESD West Brent Beamer 3M Joe Blanchard Bradford Company Donald Boehm Dou Yee Enterprises Kevin Duncan Seagate Technology Kurt Edwards Lubrizol Conductive Polymers Gene Felder DESCO Industries, Inc. Reinhold Gaertner Infineon Technologies AG W

23、alt Gately Gately & Associates, Inc Steven Gerken United States Air Force Meghan Hodge 3M Doug Holtz Conductive Containers Kyung J. Kim BF Goodrich SCP Rick Knight Ranger Plastic Extrusions, Inc. Stephen Koehn Michael J. Manders Air Force Research Laboratory Gregory Manning NASA/ARES Technical Servi

24、ces Gene Monroe NASA - LARC Carl Newberg Rivers Edge Tech. Service Microstat Labs Dale Parkin Seagate Technology Charles Perry Monroe Electronics Timothy Prass Raytheon Francisco Rodriquez 3M Jeff Salisbury Finisar, Inc. David E. Swenson Affinity Static Control Consulting, LLC Julius Turangan Ovatio

25、n, Inc. Robert Vermillion RMV Technology Group, LLC Scott Ward Texas Instruments, Inc. Stanley Weitz Electro-Tech Systems, Inc. Craig Zander Transforming Technologies ANSI/ESD STM11.13-2018 iii TABLE OF CONTENTS 1.0 PURPOSE & SCOPE . 1 1.1 PURPOSE 1 1.2 SCOPE 1 2.0 REFERENCED DOCUMENTS 1 3.0 DEFINIT

26、ION OF TERMS . 1 4.0 PERSONNEL SAFETY 1 5.0 GENERAL DISCUSSION 2 6.0 TEST EQUIPMENT 2 6.1 TWO-POINT PROBE . 2 6.2 INSULATIVE SUPPORT SURFACE 2 6.3 INSTRUMENTATION 2 6.3.1 For Product Qualification . 2 6.3.2 For Acceptance Testing . 2 6.4 TEST LEADS . 3 6.5 VERIFICATION RESISTORS . 3 7.0 SAMPLE PREPA

27、RATION . 3 8.0 VERIFICATION PROCEDURE 3 9.0 TEST PROCEDURE 3 10.0 TEST RESULTS . 4 FIGURES Figure 1: Two-Point Probe Configuration 4 Figure 2: Probe to Instrumentation Connection 5 Figure 3: Resistance Verification Fixture 6 Figure 4: Spring Compression for Measurement . 6 TABLES Table 1: Materials

28、for Two-Point Probe 5 ANNEXES Annex A (Informative): Test Method Notes 7 Annex B (Informative): Revision History for ANSI/ESD STM11.13-2018. 8 ESD Association Standard Test Method ANSI/ESD STM11.13-2018 1 ESD Association Standard Test Method for the Protection of Electrostatic Discharge Susceptible

29、Items Two-Point Resistance Measurement 1.0 PURPOSE & SCOPE 1.1 Purpose This standard test method provides a test method to measure the resistance between two points on a surface of an item. 1.2 Scope This standard test method is intended for measuring the resistance of packaging items in the range o

30、f 1.0 x 104 R 1012 ohms. 2. Section 2.0 References was updated. 3. Section 4.0 Personnel Safety was added. 4. An alternative boilerplate method was added to Section 6.2 Insulative Support Surface. 5. The boiler plate paragraphs were added to Section 6.3 Resistance Measurement Apparatus. B.2 2018 Version 1. Change made in the verification resistor range to 1.0 x 104 ohms and 1.0 x 1011 ohms. 2. Adjusted the dimensions from meter to mm where necessary.