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MIL-PRF-39010E
COIL, RADIO FREQUENCY, FIXED, MOLDED, ESTABLISHED RELIABILITY AND NON-ESTABLISHED RELIABILITY, GENERAL SPECIFICATION FOR
Year: 1997
Abstract: This specification covers the general requirements for established reliability (ER) and nonestablished reliability (non-ER) fixed, radio frequency, molded coils. Established reliability radio frequency coils covered by this specification have failure rate levels (FRL) ranging from 1.0 percent per 1,000 hours to 0.001 percent per 1,000 hours which are established at a 60 percent confidence level (see 1.2.1.4). The FRL identified by the applicable symbol specified in table III refers to operation at full load cyclic condition at the specified ambient temperature (see 3.1).
The PIN consists of the letter M, the basic number of the specification sheet, and alphanumeric designators (see 3.1) as shown in the following example:![CHART]()
Beneficial comments (recommendations, additions, deletions) and any pertinent data which may be of use in improving this document should be addressed to: US Army Communications-Electronics Command, ATTN: AMSEL-LC-LEO-E-EP, Fort Monmouth, NJ 07703-5023 by using the Standardization Document Improvement Proposal (DD Form 1426) appearing at the end of this document or by letter.
The classes of coils denoting the maximum operating temperatures (see 3.1) are identified by a single letter in accordance with table I. TABLE I. Maximum operating temperature.
The nominal inductance value expressed in microhenries (µh) is identified by three symbols in accordance with the following:
Nominal inductance values less than 10 µH are identified with two numbers representing the significant figures and the letter (R) designating decimal point location.
Example: 0.12 µH = R12; 1.2 µH = 1R2
Nominal inductance values of 10 µH and greater are identified by a 3-digit number. The first two digits represent significant figures, and the last digit specifies the number of zeroes to follow.
Example: 12 µH = 120; 120 µH = 121
The inductance tolerance is identified by a single letter in accordance with table II. TABLE II. Inductance tolerance.
The specified FRL per 1,000 hours, for the indicated product level designation, is initially established at the 60 percent consumer's confidence level and maintained at a 10 percent producer's risk and is identified by a single letter in accordance with table III and as described in MIL-STD-690.![TABLE III. Product level designator.]()
Intended Use: These radio frequency coils are designed for use in radio frequency circuits where the need for resistance to immersion and moisture, reliability, long life, and continuity of operation are necessary.
The PIN consists of the letter M, the basic number of the specification sheet, and alphanumeric designators (see 3.1) as shown in the following example:
The classes of coils denoting the maximum operating temperatures (see 3.1) are identified by a single letter in accordance with table I. TABLE I. Maximum operating temperature.
Class Temperature ------------------------ °C A 105 B 125 F 150
The nominal inductance value expressed in microhenries (µh) is identified by three symbols in accordance with the following:
Nominal inductance values less than 10 µH are identified with two numbers representing the significant figures and the letter (R) designating decimal point location.
Example: 0.12 µH = R12; 1.2 µH = 1R2
Nominal inductance values of 10 µH and greater are identified by a 3-digit number. The first two digits represent significant figures, and the last digit specifies the number of zeroes to follow.
Example: 12 µH = 120; 120 µH = 121
The inductance tolerance is identified by a single letter in accordance with table II. TABLE II. Inductance tolerance.
Symbol Tolerance ------------------------- percent J ± 5 K ± 10 L ± 20
The specified FRL per 1,000 hours, for the indicated product level designation, is initially established at the 60 percent consumer's confidence level and maintained at a 10 percent producer's risk and is identified by a single letter in accordance with table III and as described in MIL-STD-690.
Intended Use: These radio frequency coils are designed for use in radio frequency circuits where the need for resistance to immersion and moisture, reliability, long life, and continuity of operation are necessary.
Subject: Coil
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