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REVISIONS LTR ECO DESCRIPTION DATE APPROVED 8411200448 841105 PDR ADOCK 05000280 F PDR SIGNATURE - DATE TITL£ Qualification Test Report,

,-.----------------+----t Sur.c;te Withstand Capability (Sl*JC)

P*RE)'.A.REO BY Tests, MC170AD-Q2 &MC370AD-Q2 REV QTR 82-003 SHEET 1 OF 5 8626 WILBUR AVENUE

• NORTHRICGE. CA 91324 * (2131 886*8488

• T1fex No. 65*1303 VEC J0£-11180

AlidyNE l!NGINUIIING CORPORATION QUALIFICATION TEST REPORT SURGE WITHSTAND CAPABILITY (SWC) TESTS Model MC170AD-Q2 &MC370AD7Q2 Remote Multiplexer/Module Cases

1. SCOPE The Surge Withstand Capability (SWC) tests were carried out in accordance with the IEEE STD 472-1974. Tile tests were done on the input connectors of the MC170AD-Q2 and MC370AD-Q2 with and without the signal conditioners and power supplies plugged in.

The signal conditioners subjected to SWC tests were the CD173-Q2, PT174-Q2, DI325-Q2, BA332-Q2, PC202-Q2, Q.1249-Q2 and TC292-Q2.

,The PS171-Q2 and PS294-Q2 were also plugged in during the SWC Test. Tests were performed at Validyne in February, 1982.

The surge generator was constructed according to the schematic shown "in Figure 1. (Same as recoI1DI1ended by IEEE STD 472-1974.)

The SWC test wave *is an oscillatory wave., frequency range of 1.0 MHz to 1.5 MHz, voltage range of 2.5 kV to 3.0 kV crest value of the first half cycle peak, envelope decaying to SO per-cent of-the crest value of the first peak in not less than 6 µs from the start of the wave.

5 k V VARIAC 100 k GAP 300 a TO TEST

~ SPECIMEN

.75 1,1 H

.015 11 F 10 k V 300 n 1:1 100 k 115: 10000 FIGURE 1*. SWC TEST GENERATOR NUMBER REV QTR 82-003 SHEET 2 OF 5 8626 WILBUR AVENUE

• NORTH RIDGE. CA 91324 * (213) 866-8488

• Telex No. 65*1303

na 1*

I ~

didyNE RNGINdlU- COlll"O-TION

2. CONNECTION MODES The SWC tests were done with the test generator connected in common and transverse. (differential) modes with each test specimen. The common mode and transverse mode connections were as shown in Figures 2 and 3 respectively.

ISOLATING REACTORS 10 A, 370 ~ H, 2500 V

,; UNIT

--~~~~~~ .....~.... UNDER INPUTS/ TEST OUTPUTS COUPLING GND REF.

CAPACITORS 0.1 11 F 1 kV --

SWC TEST GENERATOR FIGURE 2. COMMON MODE swc TEST GENERATOR UNIT UNDER TEST

-- GND REF.

FIGURE 3. TRANSVERSE (DIFFERENTIAL) ll<<lDE NUMBER REV QTR 82-003 SHEET 3 OF 5 8626 WILBUR AVENUE

• NORTHRIDGE. CA 91324 * (2131 886-8488

• Telex No. 65*1303 vec 3os-1,,so

'\

3. PROCEDURE Functional Tests were performed on the plug-ins and power supplies.

Then*each plug-in was*subjected to SWC test for 2 s*econds with common mode connection. In transverse (differential) mode connec-tlon the duration of each SWC test was 2 seconds for each pair of connections. The MC170AD-Q2 and MC370AD-Q2 had the power on during SWC tests.

The units were functionally retested after SWC exposure and were operating nonnally.

The MC170AD-Q2 and MC370AD-Q2 chassis were also subjected to SWC test without plug-in. The units were working normally after the SWC test.

The signal conditioners*subjected* to the SWC test were as follows:

CD173-Q2 Input Pins :

• 15/16, 17/18, 19/20, 21/22 CAL Command Pins: 27/28 Output Pins: 25/26 Signal Ground: 23/24 CM249-Q2 Input Pins: +, - ' Bias Output Pins:

• SIGN. RTN Excitation Pins: ~l, (12 DI325-Q2 Input Pins:

• 13/14, 15/16, 17/18, 19/20, 21/22 Output Pins: 25/26 Signal Ground: 23/24 BA332-Q2 Input Pins: 19/20, 21/22 Exci ta ti on Pins : 15/16, 17/18 CAL. Command: 27/28 Output Pins: 25/26 Signal Ground: 23/24 PC202-Q2 Input Pins: 19/20, 21/22 Excitation Pins: 15/16, 17/18 CAL Command 27/28 Output Pins: 25/26 Signal Ground: 23/24 TC292-Q2 Input Pins: 19/20, 21/22 Temp. Compensation 15/16 Output Pins: 25/26 Signal Ground: 17/18, 23/24 NUMBER REV QTR 82-003 SHEET 4 OF 5 8626 WILBUR AVENUE

• NORTHRIOGE. CA 91324 * (213) 886-8488

• Telex No. 65-1303 VEC 305-11/90

AlidyNE E N G I _ I _ COIIPO_fl_

3. PROCEDURE (Continued)

PS171-Q2 117 VAC Input Pins PS294-Q2 117 VAC Input Pins

4. CONCLUSIONS

1. The signal conditioners functioned normally after being subjected to SWC test.

2. The MC170AD-Q2 ana MC370AD-Q2 chassis did not have any degrada-tion because of SWC test.

3. The PS171-Q2 and PS294-Q2 were functioning normally after being subjected to SWC test.

NUMBER REV QTR 82-003 SHEET 5 OF 5 8826 WILBUR AVENUE

• NORTHRIOGE. CA 91324 * (213) 886*8488

• Telex No. 65*1303 vec 30~1.,,eo

A[id)'NE D I Q I _ I _ COll~IIA110N ADDENDUM 1 to QTR82-003 Two additional signal conditioner units are also manufactured by Validyne as qualified to the SWC requirements of IEEE STD 472-1974.

These units are:

(a} DI338-Q2 (or DI338-XXX-Q2} and (b) BA332-1829-Q2 Both of these signal conditioners have equivalent configuration to other units which were directly tested in the February, 1982 tests.

The BA332-1829-Q2 is identical to the BA332-Q2, with the addition of a single gain setting resistor. The added resistor*is located in a part of the circuit which is not directly exposed to the SWC transients.

The DI332-Q2 and DI338-Q2 comparisons have been explained in QTR82-002, Addendum II. Those factors affected by the SWC stresses are also equivalent between the DI325-Q2 and DI338-Q2 models:

{a) Spacing between input circuits is the same,

{b} Components directly exposed to SWC transients are the same, (c} Functional and fail-safe criteria are the same, isolation between input and output circuits is maintained.

Validyne has concluded that the comparisons of all SWC-significant characteristics are sufficient to warrant designation of both DI338-XXX-Q2 and BA332-1829-Q2 modules as complying with the IEEE STD 472-1974 requirements.

• Other modules are contained within the Remote Multiplexer unit, but are not normally exposed to the SWC transients "seen" by the signal conditioner units. Validyne does not envision a need to qualify these modules to the SWC requirements. The modules to be exempted from SWC qualification .are:

AB295-Q2, containing 9860-XXX-Q2 plug-ins AD296-l-Q2 AD296-2-Q2 NUMBER QTR82-003 REV Addendum I SHEET 1 OF l 8626 WILBUR AVENUE

• NORTHRIOGE. CA 91324

• 1213) 886*8488

• Telex No. 65*1303 VEC 305-11/IIO