DLA MIL-PRF-1 1648 C (1)-2008 ELECTRON TUBE POWER TYPE 8660《电源型8660电子管》.pdf

1、 MIL-PRF-1/1648C w/AMENDMENT 1 10 April 2008 SUPERSEDING MIL-PRF-1/1648C(NAVY) 4 September 1998 PERFORMANCE SPECIFICATION SHEET ELECTRON TUBE, POWER TYPE 8660 This specification is approved for use by all Depart- ments and Agencies of the Department of Defense. Requirements for acquiring the electro

2、n tube described herein shall consist of this document and MIL-PRF-1. DESCRIPTION: Tetrode, ceramic-metal. See figure 2. Mounting position: Any. Weight: 27 ounces (765.5 grams) nominal. ABSOLUTE RATINGS: F = 110 MHz. Parameter: Unit: Ef V ac Eb V dc Ec1 V dc Ec2 V dc Ib mA dcPg1 W Pg2 W Pp W Anode c

3、ore and seal T C tk sec (min) Cooling - 1/ C. teleg: Class B or AB: 6.0 5% 6.0 5% 3,000 3,000 -250 - 350 400 750 900 1.0 1.0 12 12 1,500 1,500 250 250 180 180 - - Test conditions: 6.0 2,000 Adj 300 250 - - - - 300 2/ See footnotes at end of table I. _ GENERAL: Qualification - Required. AMSC N/A FSC

4、5960 INCH-POUND Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-MIL-PRF-1/1648C w/AMENDMENT 1 2 TABLE I. Testing and inspection. MIL-STD-1311 Acceptance Limits Inspection method Notes Conditions level (See 10/) Symbol Min Max Unit Conformance inspect

5、ion, part 1 Heater current 1301 - 0.65 If 9 11 A ac Electrode voltage (grid) 1261 - 0.65 Ec1 -48 -62 V dc Electrode current (screen) 1256 - 0.65 Ic2 0 -10 mA dcPrimary grid emission (control) 1266 9/ Ec1/Pg1 = 1.0 W; p = g2 = k = 0 V dc;Eavg (reverse) = 25 V; t = 60 0.65 Isg1 - -10 A dc Primary grid

6、 emission (screen) 1266 9/ Ec2/Pg2 = 12 W; p = g1 = k = 0 V dc;Eavg (reverse) = 50 V; t = 60 0.65 Isg2 - -25 A dc Ion current - 3/ Eb = -67.5 V dc; Ec2 = 300 V dc; Ec1/Ic2 = 20 mA dc0.65 Iz - 10 A dc Linear amplifier power output and distortion 2204 7/ Class AB amplifier; Eb = 2,900 V dc; Ec2 = 225

7、V dc; Ec1/Ibo = 300 mA dc; Eg1/Ib = 700 mA dc; Rl = 2,200 100 ohms; Rg = 1,000 ohms (max); anode loaded tank; Q = 10 to 15 - Po 3rd IM 5th IM 1,000 -35 -40 - - - W dB dB Conformance inspection, part 2 Direct-interelectrode capacitance (grounded cathode connection) 1331 - - Cgp Cin Cout - 75.0 10.8 0

8、.03 88.0 12.8 pF pF pF Current division 1372 - Eb = 500 V dc; Ec2 = 325 V dc; Ec1 = -200 V dc; egk/ib = 3.0 a - egk ic1 ic2 - - - 20 50 300 v mA mA See footnotes at end of table. Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-MIL-PRF-1/1648C w/AMEND

9、MENT 1 3 TABLE I. Testing and inspection - Continued. MIL-STD- 1311 Acceptance Limits Inspection Method Notes Conditions Level (See 10/) Symbol Min Max Unit Conformance inspection, part 3 Life test - 8/ Group C; linear amplifier power output and distortion;except Eg1/Po = 1,100 W (useful);t = 500 ho

10、urs - - - - - Life test end point: Linear amplifier power output and distortion - 2204 - - Po 3rd IM 5th IM 1,000 -33 -38 - - - W (useful) dB dB Vibration (noise) - 4/ 5/ Ebb = 2,500 V dc; Ec2 = 400 V dc; Ec1/Ib = 250 mA dc; Ef = 6.0 V ac or V dc; Rp = 1,000 ohms; Accel = 10 G peak (min); F = 28 to

11、500 Hz; ascending sweep only - Ep - 30 V ac Vibration (noise) end point: Electrode voltage (grid) - 1261 - - Ec1 -48.0 -62.0 V dc Shock, specified pulse (long duration) - 4/ 6/ Eb = 2,000 V dc; Ec2 = 400 V dc; Ec1 = -200 V dc; Shock = 11 2 ms; Accel = 50 G peak (min); total impacts = 9 - - - - - Sho

12、ck, specified pulse (long duration) end point: Electrode voltage (grid) - 1261 - - Ec1 -48.0 -62.0 V dc Stability - 4/ 7/ Eb = 2,900 V dc; Ec2 = 225 V dc; Ec1/Ibo = 300 mA dc; t = 90 - Ib - 30 mA dc See footnotes at top of next page. Provided by IHSNot for ResaleNo reproduction or networking permitt

13、ed without license from IHS-,-,-MIL-PRF-1/1648C w/AMENDMENT 1 4 TABLE I. Testing and inspection - Continued. 1/ In all cases of operation, force-air cooling is required and the maximum temperature ratings should not be exceeded. An air-system socket, such as the EIMAC SK-800 series, and air director

14、 (chimney) SK-806, or equivalents, shall be used. The cooling table is based on operation of the tube in an SK-800B socket with SK-806 chimney, with air flowing in a base-to-anode direction, with cooling air at 50C maximum, and for operation at frequencies below 30 MHz. Additional air cooling may be

15、 required at higher frequencies. Airflow must be applied before or simultaneously with electrode voltages (including the heater), and may be removed simultaneously with them. When long life and consistent performance are factors, cooling in excess of minimum requirements is normally beneficial. Anod

16、e Sea level 10,000 feet dissipation (W) Airflow (cfm) Approx press drop (InH20) Airflow (cfm) Approx press drop (InH20) 500 1,000 1,500 7.5 17.5 34 0.04 0.23 0.60 11 24 45 0.06 0.21 0.80 2/ In all electrical tests involving application of heater voltage, the use of an air-system socket and chimney i

17、s allowable, and forced-air cooling is permitted in order to maintain temperatures within the allowable maximum. 3/ This test shall be the first performed after the holding period. The tube shall be connected as an ion gauge, with the specified potentials applied, and the highest initial reading sha

18、ll be taken as the test value. Ion current is read with a microammeter in series with the negative anode lead. Except for Ef, all voltages shall be applied simultaneously, with an automatic current regulator controlling Ic2 to the value specified. 4/ This test shall be performed yearly. A regular sa

19、mpling plan shall be used, with the sample of three tubes with an acceptance number of zero. In the event of failure, the test will be made as a part of conformance inspection, part 2, acceptance level of 6.5 (see 10/). The regular yearly sampling plan may be reinstated after three consecutive sampl

20、es have been accepted. 5/ Each tube under test (TUT) shall be subjected to one sweep cycle in each of the three axes, X, Y, and Z. One sweep (28 to 500 Hz, ascending only) shall be covered in 6 to 15 minutes. The specified voltages shall be applied during the test, using the basic circuit shown on f

21、igure 3. Tubes found to electrically oscillate for causes other than vibration shall not be tested nor rejected on this test. Each tube shall be vibrated for 60 seconds at the frequency which gives the maximum vibration (noise) output voltage in each of the three axes. If at the end of the 60 second

22、s, the vibration output voltage is increasing, the vibration shall be continued until there is no further increase. The tubes shall not show noise voltage output in excess of the maximum limit specified, except one intermittent short shall be allowable during this test. In addition to reading noise

23、voltage on the specified VTVM, or equivalent, a permanent recording shall be made using a good quality recorder to produce a plot of noise voltage versus frequency. Noise voltage amplifiers used with the recorder shall have a 1 dB frequency response over the range to be measured and the overall reco

24、rding equipment shall be capable of fast response in order to show sharp noise voltage spikes resulting from internal tube resonances or other phenomenon. Prominent noise peaks indicated on the recording shall be individually investigated by fixed-frequency operation, and the 60-second operation sha

25、ll be made at the frequency of highest noise as so selected. 6/ Each TUT shall be subjected to the specified acceleration in the X, Y, and Z axes, with three shocks in each axis. Tubes showing any permanent shorts, or more than one temporary short during the test, shall be rejected. The applied shoc

26、k shall be an approximate half-sine wave motion with the duration measured at the zero-axis level. 7/ When the stability test is performed, the same sample of tubes shall be used for the stability test and the linear amplifier power output and IM distortion test, with the stability test performed fi

27、rst. The same test circuit shall be used for both tests. The absolute value of the 3rd IM shall never be greater than the absolute value of the 5th IM. 8/ The life test shall be considered as destructive. All voltage and current meters shall be calibrated for 2 percent accuracy or better as installe

28、d in the equipment. The circuit used need not be identical to that used for the linear amplifier power output and IM distortion test. Prior to the performance of the life test, the tubes used shall have met the requirements of the linear amplifier power output and IM distortion test. 9/ The test cir

29、cuit of figure 1 shall be used. The input voltage shall be varied to obtain the average inverse voltage and the resistor R shall be varied to obtain and maintain the forward power for the specified time. All unused tube elements shall be grounded. The wattmeter shall be capable of reading over the r

30、ange from dc to at least 600 Hz. Loading of the transformer is permissible. 10/ This specification sheet uses accept on zero defect sampling in accordance with MIL-PRF-1, table III. Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-MIL-PRF-1/1648C w/AM

31、ENDMENT 1 5 FIGURE 1. Test circuit. Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-MIL-PRF-1/1648C w/AMENDMENT 1 6 NOTES: 1. Dimensions H, J, K, L, and M shall be maintained within .100 inch (2.54 mm) from the outer peripheral edge of the contact ta

32、bs. 2. Dimensions shall be checked yearly. A regular sampling plan shall be used, with the sample of three tubes with an acceptance number of zero (see 10/). In the event of failure, the test will be made as a part of conformance inspection, part 2, acceptance level 6.5 (see 10/). The regular yearly

33、 sampling plan may be reinstated after three consecutive samples have been accepted. FIGURE 2. Outline drawing of electron tube type 8660. Dimensions Ltr Inches Millimeters Min Max Min Max Conformance inspection, part 2 C 1.870 1.900 47.50 48.26 G 4.600 4.800 116.84 121.92 H .965 .988 24.51 25.10 J

34、.690 .710 17.53 18.03 K .415 .435 10.54 11.05 L .140 .165 3.56 4.19 M .020 .030 0.51 0.76 P .314 .326 7.98 8.28 U .025 .048 0.64 1.22 V .045 .070 1.14 1.78 Conformance inspection, part 3 (see note 2) A 3.335 3.365 84.71 85.47 B .807 .817 20.50 20.75 D 2.250 2.300 57.15 58.42 E 2.195 2.380 55.75 60.4

35、5 F 3.410 3.550 86.61 90.17 N .700 .800 17.78 20.32 R 55 65 55 65 S 115 125 115 125 T .470 .530 11.94 13.46 Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-MIL-PRF-1/1648C w/AMENDMENT 1 7 FIGURE 3. Basic circuit for use in vibration (noise) test. Ref

36、erence documents. In addition to MIL-PRF-1, this specification sheet references MIL-STD-1311. Amendment notations. The margins of this specification are marked with vertical lines to indicate modifications generated by this amendment. This was done as a convenience only and the Government assumes no

37、 liability whatsoever for any inaccuracies in these notations. Bidders and contractors are cautioned to evaluate the requirements of this document based on the entire content irrespective of the marginal notations. Custodians: Preparing activity: Navy - EC DLA - CC Air Force - 11 DLA - CC Review act

38、ivities: (Project 5960-2008-051) Navy - AS, CG, MC, OS NOTE: The activities listed above were interested in this document as of the date of this document. Since organizations and responsibilities can change, you should verify the currency of the information above using the ASSIST Online database at http:/assist.daps.dla.mil. Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-