共找到 403 条与 开关 相关的标准,共 27 页
이 규격은 전자 기계식 스위치의 정격 전압 300 V 이하, 정격 전류 25 A(d.c.
Electromechanical switches for use in electronic equipment-Part 6:Sectional specification for sensitive switches
본 규격은 아날로그와 디지털 논리 회로의 인터페이스용으로 인쇄 기판의 사용을 목적으로한 인
Electromechanical switches for use in electronic equipment Part 3:Sectional specification for in-line package switches
서 문 이 규격은 1991년에 발행된 IEC 61020-5-1 Electromecha
Electromechanical switches for use in electronic equipment-Part 5:Sectional specification for pushbutton switches-Section 1:Blank detail specification
서 문 이 규격은 1991년에 발행된 IEC 61020-6-1 Electromecha
Electromechanical switches for use in electronic equipment-Part 6:Sectional specification for sensitive switches-Section 1:Blank detail specification
서 문 이규격은 1991년 발행된 IEC 61020-3-1(Electromechanic
Electromechanical switches for use in electronic equipment-Part 3:Sectional specification for in-line package switches Section 1-Blank detail specification
서 문 이 규격은 1995년 11월에 발행된 IEC 61020-3-2 Electrome
Electromechanical switches for use in electronic equipment-Part 3:Sectional specification for in-line package switches-Section 2:Detail specification for dual in-line package(DIP), switches, raised and recessed rocker actuated
본 규격은 정격 전압 300 V 이하, 정격 전류 25 A(d.c. 또는 r.m.s.) 이
Electromechanical switches for use in electronic equipment Part 4:Sectional specification for lever(toggle) switches
서 문 이 규격은 1991년에 발행된 IEC 61020-4-1 Electromecha
Electromechanical switches for use in electronic equipment-Part 4:Sectional specification for lever(toggle) switches-Section 1:Blank detail specification
Knobs-Round, Concentric, Illuminated and Non-Illuminated FSC 5355
Knobs-Round, Concentric, Illuminated and Non-Illuminated
THE INITIAL RELEASE OF THIS DOCUMENT SUPERSEDES MS21385, REVISION E. PART NUMBERS I 1 FED SUP CLASS 5355 :MAIN MS21385.
Knobs-Tactile Series, Illuminated and Non-Illuminated
Knob-Radial Indicator, Illuminated and Non-Illuminated FSC5355
Knob-Radial Indicator, Illuminated and Non-Illuminated
Vibration encountered in the field is not usually simple harmonic. This test can be used to determine relative motion between parts, critical frequencies, adhesion strengths, loosening of parts or other physical effects that can cause fatigue or failure. Experience has shown that this test will expose potential failures associated with the electronic components of a membrane switch, where tests of lower levels will not. This practice can be used to qualify a membrane switch for aerospace, medical and other applications. This test is potentially destructive, intended for device qualification. Either Test Condition A or B can be chosen, based upon the intent of the test determined by the qualified engineer.1.1 This test method establishes procedures for determining the effect of sinusoidal vibration, within the specified frequency range, on switch contacts, mounting hardware, adhered component parts, solder or heat stakes, tactile devices, and cable or ribbon interconnects associated with a membrane switch or membrane switch assembly. 1.2 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.
Standard Test Method for Determining the Effect of Variable Frequency Vibration on a Membrane Switch or Membrane Switch Assembly
1.1 This terminology defines terms that are commonly used in the membrane switch industry. 1.2 These definitions are not mutually exclusive.
Standard Terminology for Membrane Switches
Vibration encountered in the field is usually random in nature and this test can be used to determine the effects of random excitation on the membrane switch. Random vibration can cause mechanical fatigue and failure by switch components either loosening or otherwise changing over time. Experience has shown that this test will expose potential failures associated with the electronic components of a membrane switch, where tests of lower levels will not. This practice can be used to qualify a membrane switch for aerospace, medical and other applications. This test is potentially destructive, intended for device qualification.1.1 This test method establishes procedures for determining the effect of random vibration, within the specified frequency range, on switch contacts, mounting hardware, adhered component parts, solder or heat stakes, tactile devices, and cable or ribbon interconnects associated with a membrane switch or membrane switch assembly. 1.2 The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard. 1.3 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.
Standard Test Method for Determining the Effect of Random Frequency Vibration on a Membrane Switch or Membrane Switch Assembly
Style KX003,switches rotary detail specification for
Microwave assemble detail specification for model WFK150618 SP5T switch
Knob - Round Illuminated and Non-Illuminated, Small FSC 5355
Knob - Round Illuminated and Non-Illuminated, Small
Knob-Round, Illuminated and Non-Illuminated, Small FSC 5355
Knob-Round, Illuminated and Non-Illuminated, Small
USE OF OR RELUNCE UPON THIS DOCUMENT OR ANY NATIONAL AEROSPACE STANDARD IS ENTIRELY VOLUNTARY AIA DOES NOT QUALIFY SUPPLIERS OR :ERTiFY CONFORMANCE OF ITEMS PROCURED UNDER NATIONAL AEROSPACE STANDARDS. UTABILITY OF ITEMS FOR
Knob - Pointer Illuminated and Non-Illuminated
Knob, Control, Ball FSC 5355
Knob, Control, Ball
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