2306197

BCcomponents 

Product specification 

a] Professional power metal film resistors PROUOe2/03 

## a 

|FEATURES|DESCRIPTION|DESCRIPTION|DESCRIPTION|||climatic|protection. This coating is not|protection. This coating is not|
|---|---|---|---|---|---|---|---|---|
|¢ High power in smallpackages<br>*<br>Different lead materialsfordifferent|Ahomogeneousfilm ofmetal<br>d<br>ited<br>high<br>On At on; ie ee||||metal alloy is<br>grad<br>;<br> ©© hawtbe|resistant to aggressive fluxes.The<br>encapsulation is resistant to all<br>cleaningsolvents inaccordancewith|||
|* Defined interruption behaviour.|connectingwiresofelectrolyticcopper|||||IEC60068-2-45".|||
||or copper-clad|||iron are|welded to the||||
|APPLICATIONS|end-caps.||The resistors arecoatedwith||||||
|All<br>|<br>°<br>genera purposepower<br>applications.|a red, nonflammable lacquerwhich<br>provides electrical, mechanical and||||||||
|QUICK REFERENCE DATA|||||||||
||||||VALUE||||
|0.22|to<br>1|MQ| 0.33 Ato|||1 MQ|1Qto1 MQ| 0.68 Qto1|||MQ|1Qto1 MQ|
||||+1%|(E96 series); +5% (E24 series); see notes 1 and 2|||||
|Maximum dissipation at|||||||||
|Tamb = 70 °C:|||||||||
|R<1Q|0.6 W|||1.2W<br>-|||1.6 W|-|
|TQER|1wW|||2W|1.3 W||3W|2.5 W|
|Temperature coefficient|||||S$+250 x 10-/K||||
|Maximum permissible voltage<br>(DC or RMS)|Vv<br>350||||500 V|||750 V|
|Climatic category (IEC 60068)|||||55/155/56||||
|Stability after:|||||||||
|load|||||AR/R max.:5% + 0.1 Q||||
|climatic tests|||||AR/R max.: £3% + 0.1 Q||||
|soldering|||||AR/Rmax.:+1%+0.05Q||||



## Notes 

1. 1% tolerance is available for R,-range from 1R upwards. 

2. 2% tolerance is available on request for Rn-range from 1R upwards. 

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Product specification 

## Professional power metal film resistors 

## PROV/02/03 

## ORDERING INFORMATION 

## Table 1 Ordering code indicating resistor type and packaging 

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**----- Start of picture text -----**<br>
ORDERING CODE 23.. ... ..... (BANDOLIER)<br>wee | so | TOL RADIAL TAPED STRAIGHT LEADS<br>4000 3000 5000 500<br>units units units units<br>| 1<br>PROI | Cu 0.6 —<br>5 06 197 22 193 22 193 22 193 | 06 197<br>03... 14... 13... 23... 23...<br>cu0.8<br>06 198 06 198 22 194 06 198<br>peeve} [spf] [eT] 22194 22 195 22 194 22195<br>5 | |<br>CH08 14... 13...<br>06 193<br>22195 22 195<br>Table 2. Ordering code code indicating resistor type and type and and packaging<br>ORDERING CODE 23.. ... ..... (LOOSE IN BOX)<br>Tyi TEAD TOL CROPPED AND FORMED!!) DOUBLE KINK<br>nian, | mime, | - [|- - |=-||<br>fecuos| 5 |---| = +4 - |i fd<br>DisH. | ww. |---| = +} - |=<br>**----- End of picture text -----**<br>


Table 2. Ordering code code indicating resistor type and type and and packaging 

Notes 

1. Maintenance types, not for new designs. 

2. h=mounted height above PCB (see Fig.41). 

3. Type can be replaced by double kink, large pitch. 

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267 

BCcomponents 

Product specification 

## Professional power metal film resistors 

## PROVOe2/03 

## Ordering code (12NC) 

## Table 3 Last digit of 12NC 

## Ordering example 

- ¢ The resistors have a 12-digit RESISTANCE LAST DIGIT The ordering code for resistor type ordering code starting with 23. DECADE PRO2 with Cu leads and a value of 

- * The first 7 digits indicate the resistor 0.22 to 0.91 Q 750 Q, supplied ona bandolier of type and packaging: 1000 units in ammopack, is: oe ublee tal” 1109769 | 8 | 9322 194 13751. 

- ¢ The remaining 3 digits indicate the 100 to 976 Q ft resistance value: 1109.76 kQ - The first 2 digits indicate the 10 to 97.6 kQ 

- ¢ The remaining 3 digits indicate the resistance value: - The first 2 digits indicate the resistance value. 

- The last digit indicates the resistance decade in accordance with Table 3. 

## FUNCTIONAL DESCRIPTION 

## Product characterization 

Standard values of nominal resistance are taken from the E24 series for resistors with a tolerance of +5%. The values of the E24 series are in accordance with “IEC publication 60063”. 

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**----- Start of picture text -----**<br>
1.00 Tamb= 40°C 70°C<br>P<br>Ww) 100°C<br>0.75<br>125°C<br>0.50<br>155°C<br>0.25<br>205°C<br>x4 ay<br>S<br>mses<br>PROI<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
Fig.1 Drift nomogram.<br>**----- End of picture text -----**<br>


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## Professional power metal film resistors 

**==> picture [393 x 282] intentionally omitted <==**

**----- Start of picture text -----**<br>
2.00 Tamb= 40°C 70°C<br>P<br>™)Ww 100°C<br>1.50<br>126°C<br>1.00<br>155°C<br>q<br>0.50 /<br>220°C<br>cy©<br>N<br>PROZ<br>Fig.2 Drift nomogram.<br>**----- End of picture text -----**<br>


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PROVO2/03 

## Professional power metal film resistors 

**==> picture [394 x 281] intentionally omitted <==**

**----- Start of picture text -----**<br>
Tamb= 40°C 70°C<br>3.00<br>P<br>(W) 4 100°<br>2.25 fo" 125°C<br>1.50 ars| 158%<br>0.75 a<br>cel<br>ber<br>250°C<br>»ge<br>wey<br>mse<br>PROS<br>Fig.3 Drift nomogram.<br>**----- End of picture text -----**<br>


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PROWVOe2/03 

## Professional power metal film resistors 

## Limiting values 

**==> picture [417 x 101] intentionally omitted <==**

**----- Start of picture text -----**<br>
TYPE LEAD MATERIAL RANGE LIMITING VOLTAGE!(1) LIMITING POWER<br>(Vv) (W)<br>PROI Cu 350 os<br>Cu<br>Cu 16<br>**----- End of picture text -----**<br>


Note 

1. The maximum voltage that may be continuously applied to the resistor element, see “IEC publication 60115-1”. 

The maximum permissible hot-spot temperature is 205 °C for PRO1, 220 °C for PRO2 and 250 °C for PRO3. 

## DERATING 

The power that the resistor can dissipate depends on the operating temperature; see Fig.4. 

**==> picture [185 x 117] intentionally omitted <==**

**----- Start of picture text -----**<br>
Prax copa12<br>(%Prated)<br>100<br>0-55 0 50 70 100 155<br>Tamp (°C)<br>**----- End of picture text -----**<br>


Fig.4 Maximum dissipation (Pmax) in percentage of rated power as a function of the ambient temperature (Tamp). 

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Product specification 

PROVO2/03 

## Professional power metal film resistors 

**==> picture [92 x 7] intentionally omitted <==**

**----- Start of picture text -----**<br>
PULSE LOADING CAPABILITIES<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
10? Sg ee ee eer<br>Ww) eee tylt,= 1000 St Ht} HH<br>P10 SR tt<br>SST SE<br>PRS 5s a ee SS ee<br>ee ee c=? a —~ "ee<br>er anLL==<br>a NS a Oa 9 a GO 0 RM Oe OO 8 re ee Oe 0 ee<br>Pt PP PP PT<br>ootTTTE ETT<br>106 10-6 10-4 10°8 10° 1071 1<br>t(s)<br>PROI Fig.5 Pulse on a regular basis; maximum permissible peak pulse power (Pmax)- as<br>a function of pulse duration (t)).<br>1200 MLB737<br>Smee | TE ET TT IE<br>MoET<br>RE NN<br>wot UL TETEET SC<br>Seees<br>iAAS etNTNE<br>Oo CoCN<br>400 Nuilll<br>a <<br>EHECEC<br>a EE a<br>io 105 10-4 1073 10-2 107 1 (8) 1<br>PROI<br>Fig.6 Pulse ona regular basis; maximum permissible peak pulse voltage (Vmax) as<br>a function of pulse duration (t)).<br>**----- End of picture text -----**<br>


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Product specification 

Professional power metal film resistors 

PROVOe2/03 

**==> picture [376 x 189] intentionally omitted <==**

**----- Start of picture text -----**<br>
OSee<br>. BRS SaSe<br>Bmax oS SE<br>(Ww) SSS raat peat CLT<br>SSeee<br>SS 0TStt<br>a<br>a Pa a OOee<br>$)<br>a CS OO 0 BS OO OO Py)<br>ortPICT ee<br>106 —LUE105 TP 10-4 PP 103 10°? TPT1071 tj (s) 1<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
PRO2<br>**----- End of picture text -----**<br>


Fig.7 Pulse ona regular basis; maximum permissible peak pulse power (Pmax) as a function of pulse duration (t)). 

**==> picture [389 x 232] intentionally omitted <==**

**----- Start of picture text -----**<br>
1700 MLB684<br>ton | ELT TT ETE PT<br>Mo I TT<br>PTT PET Se<br>wo — I TT P T NR<br>PE Ln E<br>= EI Ee rete Peme crn NC<br>"0 a a<br>0 TE PE PT He A<br>woe LU PETE PT) PTET<br>10°6 io°§ 104 10°$ 10°? io! ti (8) 1<br>PROZ<br>Fig.8 Pulse ona regular basis; maximum permissible peak pulse voltage (Vmax) as<br>a function of pulse duration (t)).<br>**----- End of picture text -----**<br>


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PROD1/02/03 

## eee 

## Professional power metal film resistors 

## eee 

**==> picture [389 x 502] intentionally omitted <==**

**----- Start of picture text -----**<br>
404 pee ee MLBOSS<br>Pmax (Ce<br>(W) Poa ET AE Et<br>vot epNf<br>SSEie Se  EEA poiit | = 1000 SRA 0 RP DA NH ON SP OS RS PO GG a OW<br>pe)PSEpietOZ00Seesg SooaHSORa SSeeeee<br>1? SeLiooo OteeeeSeLt A<br>en Go ln OO Gg RN GO es eesD<br>PE oe St<br>to SeeeeettrtT een anes eSLe<br>Eaee AS RSEEEA OS2 ERS SS Ses WW RO Gy Oe ws mens rm RS NN GD I 0 OW SS<br>a[tr ee eeEt<br>po ee<br>ce<br>1076 1078 104 10-3 10°? wt 44) 1<br>PROS<br>Fig.9 Pulse on a regular basis; maximum permissible peak pulse power (Pmax) as<br>a function of pulse duration (t)).<br>MLBE94<br>AGnax_ EL UTTTE fHt ETPE<br>Mot eT PT<br>i1600ere iHET<br>LT PNT<br>i NG<br>800a PTTN<br>POET TTwee [h]<br>sO EE PE Ep<br>106 1o°§ 10°4 10°73 10°? 107 t;(s) 1<br>PRO3<br>Fig.10 Pulse ona regular basis; maximum permissible peak pulse voltage (Vmax) as<br>a function of pulse duration (t)).<br>**----- End of picture text -----**<br>


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Product specification 

## Professional power metal film resistors 

## PROI/O2/03 

## INTERRUPTION CHARACTERISTICS 

**==> picture [387 x 419] intentionally omitted <==**

**----- Start of picture text -----**<br>
$02pT $02<br>eeAE a es a ee sees ee |<br>Fe RR ARN MD SOTE SA RS SS SDSN SNEY RS SS | Cs pee)es A SN NOS OT SO<br>(s) a RR a, Ne | (8) aS a GR Rs es |<br>wttiZA= [lit] witZr> || | |<br>TROTA A— OOSooOFS Ts——EE MS CS ——A[ATAPION SSoo OS Ss, Ve<br>><br>1 OLLIBaUZZ7Z7-LIT ITD 1 BEEEZZZZYYeee Snes Stans Weve © 07 --ar Wi a AF i yar "ar ad a a a ara<br>SS ee See eee<br>PLL LE TLL PALL LALLA |) ES AS A SS Ie Oe Te Al<br>TT PITA EAA aA SSONSLL SIS OPP TOL<br>ow 0LMT10 20 30 |40 50 oe 0 ti10 ft 20ttt30 tt40 ty50<br>Povertoad () P overload ()<br>The graph is based on measured data under constant voltage conditions; The graph graph is based based on measured data under constant voltage constant voltage voltage<br>these data may deviate according to the application. these data data may deviate according to the application. the application. application.<br>PROI PRO<br>Fig.11 Time to interruption as a function of overload Fig.12 Time to to interruption as a a function of overload<br>power for range: OR22 < Ry < 1R. power for range: 1R < < R, < 15R.<br>402 ——<br>SS SSS<br>Se<br>es a NN NE 772s OR<br>(s) a a OO A 22, ><br>oe ee oe ee 65a esa oas waaieaw ene<br>ISAI ROT S|<br>A TE A A SN OE Oe OE A<br>ee SE NS SO ON ILS OLD OI]<br>eea<br>wet ttt it i tt<br>Q 10 20 30 40 50<br>P overload (W)<br>**----- End of picture text -----**<br>


The graph graph is based based on measured data under constant voltage constant voltage voltage conditions; these data data may deviate according to the application. the application. application. PRO 

Fig.12 Time to to interruption as a a function of overload power for range: 1R < < R, < 15R. 

The graph is based on measured data under constant voltage conditions; these data may deviate according to the application. 

PROI 

Fig.13 Time to interruption as a function of overload power for range: 16R < R, < 560R. 

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BCcomponents 

Product specification 

## Professional power metal film resistors 

## PROVOe/03 

**==> picture [376 x 432] intentionally omitted <==**

**----- Start of picture text -----**<br>
402 MLB766 402 MLB767<br>———— ————<br>Cs ee ed ee ee ee es ae oe ee ae eeee ee er a ee |<br>5 aSSa eHSSHTS )Cs FPPSa SS PppA pr rr<br>toeTT ree || Wr |<br>Saas || rh 10 ae2222222<br>ee aee SA ONa  OOLLLNS 40.00, PTOISILTOS TLE SIO Fad. (aeTEETER ul 444 000 090A a. Sauda s ade Tae<br>a a SD ITs 0-4 9 VA RV OPTRA LLL LLL LLA<br>a NO A ISLS ITS IIS OPE PN<br>ot te) [tilt] 20 40 i 60 80 t t Ps100 4120 0" 0lili20 40 i 60lt ti80 <100 TRS120<br>Poverload (W) Povertoad (W)<br>is based on on measured data under constant voltage conditions; The graph graph is based based on measured data data under constant constant voltage<br>data may deviate according to the application. these data may may deviate according to the the application.<br>PRO2<br>Time to interruption as a function of overload overload Fig.15 Time to interruption as a function a function function of overload<br>power for range: 0.33R $ Ry < 5R. power for range: 5R < < Ry, < 68R.<br>90?eeMLB768 tS MLB773<br>eS Se San STE aE SEE EESCEE RSRa ERE GEE mene Ine<br>Fg Ey eeee oe<br>6) Sn-pppnSHD NO t pap<br>Pf yp [Pe] ery yr () Lt| |a<br>BSSGREEREeE || |WPetMLAL Lh oon | |<br>aee a nnAA553990 OP OSS002 SS—~n n| o SSOREae eoTINToeNE<br>_| LY —| | | Say}<br>= ee ee eee ——<br>aee a AO OO ASa SD NS SR ON SN<br>eo0 20ttt}ee«40  it60 ee80| 100osee= 120 ot Cy)p [| 50ft Jtitilit400ty 150fy Py200i | |250<br>Poverload (W) Poverioad ()<br>**----- End of picture text -----**<br>


The graph is based on on measured data under constant voltage conditions; these data may deviate according to the application. 

The graph graph is based based on measured data data under constant constant voltage conditions; these data may may deviate according to the the application. PRO2 

PROZ 

**==> picture [180 x 20] intentionally omitted <==**

**----- Start of picture text -----**<br>
Fig.14 Time to interruption as a function of overload overload<br>power for range: 0.33R $ Ry < 5R.<br>**----- End of picture text -----**<br>


**==> picture [180 x 20] intentionally omitted <==**

**----- Start of picture text -----**<br>
Fig.15 Time to interruption as a function a function function of overload<br>power for range: 5R < < Ry, < 68R.<br>**----- End of picture text -----**<br>


The graph is based on measured data under constant voltage conditions; these data may deviate according to the application. 

PRO2 

**==> picture [183 x 26] intentionally omitted <==**

**----- Start of picture text -----**<br>
The graph is based on measured data under constant voltage conditions;<br>these data may deviate according to the application.<br>PROS<br>**----- End of picture text -----**<br>


Fig.16 Time to interruption as a function of overload power for range: 68R < R, < 560R. 

**==> picture [181 x 20] intentionally omitted <==**

**----- Start of picture text -----**<br>
Fig.17 Time to interruption as a function of overload<br>power for range: 0.68R $ Rp, < 560R.<br>**----- End of picture text -----**<br>


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Product specification 

Professional power metal film resistars 

PROWVO02/03 

## Application information 

**==> picture [391 x 442] intentionally omitted <==**

**----- Start of picture text -----**<br>
at"TTT at“COO i<br>“opt TTT TT 8 cept<br>PPP Pp<br>wo tt te wot ttt Pitt yt<br>woelttyiptt tt ey ptt tett<br>Pp t} tt abt tpt em<br>te Ls eeeee<br>JOLLA EE LLL eA<br>te tt lla<br>o2 tit itt ttt | 7 ase eee<br>i) 0.4 08 pw 12 0 0.4 08 pw, 12<br>@0.6 mm Cu-leads.<br>@0.6 mm Cu-leads. Minimum distance from resistor body to PCB = 1 mm.<br>pro1 PROI<br>Fig.19 Temperature rise (AT) (AT) at the the lead end<br>Fig.18 Hot-spot temperature rise (AT) as a point) as a function ofdissipated ofdissipateddissipated power at<br>function of dissipated power. various lead lengths after mounting.<br>AT“CT AT“TOTO<br>“ott pitty i fot<br>SEREEEREP AEs pity Py<br>wl ttt ti oe<br>PrP itt Att PP Py<br>WCLELE<br>Pw AL jLLLCC Crh<br>sony 4nneeeenet aLpTEEEaoe<br>STAT am<br>LITT itt i MATzee II<br>0 0.4 08 pw 12 0 0.4 08 pw 12<br>@0.6 mm FeCu-leads.<br>@0.6 mm FeCu-leads. Minimum distance from resistor body to PCB = 1 mm.<br>**----- End of picture text -----**<br>


**==> picture [187 x 29] intentionally omitted <==**

**----- Start of picture text -----**<br>
Fig.19 Temperature rise (AT) (AT) at the the lead end (soldering<br>point) as a function ofdissipated ofdissipateddissipated power at<br>various lead lengths after mounting.<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
PROI<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
PROI<br>**----- End of picture text -----**<br>


Fig.20 Hot-spot temperature rise (AT) asa function of dissipated power. 

- Fig.21 Temperature rise (AT) at the lead end (soldering point) as a function of dissipated power at various lead lengths after mounting. 

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Product specification 

PROVOe2/03 

## Professional power metal film resistors 

**==> picture [386 x 456] intentionally omitted <==**

**----- Start of picture text -----**<br>
200 MLBE79 100 — —<br>wort ttt ttt Ae ot mp2<br>. +pti iTATE tA omefain<br>/ LE<br>STAT: Spa |) * Aoleelilt<br>Mii titi tid] ALi J itt<br>0 0.8 18 pry 24 0 1 P (W) 2<br>0.8 mm Cu-leads.<br>@0.8 mm Cu-leads. Minimum distance from resistor body to PCB = 1 mm.<br>PRO2 PRO2<br>Fig.23 Temperature rise (AT) (AT) at the the lead end end<br>Fig.22 Hot-spot temperature rise (AT) as a point) as a function of dissipated power<br>function of dissipated power. various lead lengths after mounting.<br>AT240 rT _ 100 ~~~ | rT. —<br>00 AT i ; | |<br>Saegeneeea6 “op | pt<br>f 60 - ‘<br>perecaer ane “he<br>wtlti tiv tf lity<br>« eee o | ZT<br>Zeca Zo — AoiA<br>0 0.8 16 pw 2-4 0 1 P (W) 2<br>20.6 mm FeCu-leads.<br>@0.6 mm FeCu-leads. Minimum distance from resistor body to PCB = 1 mm.<br>**----- End of picture text -----**<br>


- Fig.23 Temperature rise (AT) (AT) at the the lead end end (soldering point) as a function of dissipated power at various lead lengths after mounting. 

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**----- Start of picture text -----**<br>
PROZ<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
PROZ<br>**----- End of picture text -----**<br>


Fig.24 Hot-spot temperature rise (AT) as a function of dissipated power. 

- Fig.25 Temperature rise (AT) at the lead end (soldering point) as a function of dissipated power at various lead lengths after mounting. 

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Product specification 

Professional power metal film resistors 

PROVO2/03 

**==> picture [390 x 456] intentionally omitted <==**

**----- Start of picture text -----**<br>
atCTTTTT “CC<br>*oEA aT® COD [oo]<br>os wot<br>ann a A asm<br>Pf it ret tt BaD 72a<br>ott “ii | | t | “TT Bae<br>Pity LL<br>tt 7 |<br>4 wi Yet tit<br>“7ivi tt it | (AiliZ tii tt<br>74 AA Tit ttt tt<br>0 1 P (Ww) 2 0 0.8 16 pw 24<br>@0.8 mm FeCu-leads,<br>@0.8 mm FeCu-leads. Minimum distance from resistor body to PCB = 1 mm.<br>PRO2 PRO2<br>Fig.27 Temperature rise (AT) at the the lead end end<br>Fig.26 Hot-spot temperature rise (AT) as a point) as a function of dissipated dissipated power at<br>function of dissipated power. various lead lengths after mounting.<br>200 MLB689 100 MLB690<br>or [TPT TTP ar [LP Ty ttt yy<br>“ett ye ee EE tom<br>pi TTP Ar pittTy Ar<br>wtEa wf | | yt Lom<br>“LETT vA SA aa mm<br>EIS || TS eee<br> ATT TTT SLT ga<br>wtKEE | Yt ttt<br>tiiPTA tt WAi tl |<br>0 t tt Tei pALI ITT Tid<br>1 2 pw 3 0 1 2 pw 3<br>@0.8 mm Cu-leads.<br>@0.8 mm Cu-leads. Minimum distance from resistor body to PCB = 1 mm.<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
Fig.27 Temperature rise (AT) at the the lead end end (soldering<br>point) as a function of dissipated dissipated power at<br>various lead lengths after mounting.<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
PROS<br>**----- End of picture text -----**<br>


**==> picture [14 x 6] intentionally omitted <==**

**----- Start of picture text -----**<br>
PROS<br>**----- End of picture text -----**<br>


Fig.28 Hot-spot temperature rise (AT) as a function of dissipated power. 

Fig.29 Temperature rise (AT) at the lead end (soldering point) as a function of dissipated power at various lead lengths after mounting. 

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Product specification 

Professional power metal film resistors 

PROVO2/03 

**==> picture [390 x 455] intentionally omitted <==**

**----- Start of picture text -----**<br>
arCT er “TOTT<br>(«) B AT<br>geseeeeees’<br>wo tt ft eetcial MC SunRenauesa<br>mererebeteee|oaeeeee7enee otitt rt<br>Jaa, COOpZAC ETT |] ol“PSE ee bpet hee<br>2sennan SERV sb scasr=<br>oYCZT ntact]S|<br>Witt Yatii tii |<br>) tir tit PALI Ii tt<br>1 2 pw 3 0 1 2 pw 3<br>@0.6 mm FeCu-leads.<br>@0.6 mm FeCu-leads. Minimum distance from resistor body to PCB = 1 mm.<br>PRO3 PRO3<br>Fig.31 Temperature rise (AT) at the lead end<br>Fig.30 Hot-spot temperature rise (AT) as a (soldering point) as a function of dissipated<br>function of dissipated power. power at various lead lengths after<br>aTCo “TOT Toon<br>RAC aT<br>160 CESPer errHeet | PSRBORURERERRRREREE<br>wlCOCPAtit Pe TTT wtRRSRGERREEZet eetAS |<br>“oyatase_seeHeSeteM otMMRGEEATOD?/<C0BGAIDLar<br>At}: A<br>Wliitiii0  Trpiti yids pAaTTTTE |<br>1 2 pw 3 0 0.8 1.6 24 p ww) 32<br>@0.8 mm FeCu-leads.<br>@0.8 mm FeCu-leads. Minimum distance from resistor body to PCB = 1 mm.<br>**----- End of picture text -----**<br>


- Fig.31 Temperature rise (AT) at the lead end (soldering point) as a function of dissipated power at various lead lengths after mounting. 

**==> picture [13 x 6] intentionally omitted <==**

**----- Start of picture text -----**<br>
PRO3<br>**----- End of picture text -----**<br>


PRO3 

Fig.32 Hot-spot temperature rise (AT) as a function of dissipated power. 

- Fig.33 Temperature rise (AT) at the lead end (soldering point) as a function of dissipated power at various lead lengths after mounting. 

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Product specification 

PROV/02/03 

## Professional power metal film resistors 

**==> picture [388 x 207] intentionally omitted <==**

**----- Start of picture text -----**<br>
402<br>Ao]<br>Ee Co<br>POer rr<br>FSS<br>w eel egcall<br>po<br>oe t+ LITT 7 tT ET<br>1071 1 10 10? f (MHz) 103<br>PROI<br>**----- End of picture text -----**<br>


Fig.34 Impedance as a function of applied frequency. 

**==> picture [389 x 211] intentionally omitted <==**

**----- Start of picture text -----**<br>
120 MLB658<br>alegep LUIPPTUTE ereeeve TE<br>PE<br>eeagesHei | ||<br>eea a |Lyi BaileT |<br>ee ee WE<br>PARAS TT<br>Tt<br>40nh |= | [Cre] nil<br>TST mani<br>-80en ell<br>107 1 10 iM10? 103<br>f (MHz)<br>PROT<br>**----- End of picture text -----**<br>


Fig.35 Phase angle as a function of applied frequency. 

2000 Sep 08 

281 

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Product specification 

SSS 

PROI/O2/03 

## Professional power metal film resistors 

**==> picture [389 x 502] intentionally omitted <==**

**----- Start of picture text -----**<br>
10? _——<br>_Ssoe es ee Se Ss See Se oes eee ee oe oe eS as eS Sev coon Sens soar on Sos oo<br>el EP awe CT<br>ee ee ee eel ee ice means<br>ee<br>Seee as ee eeoeeee<br>pa EL<br>es ee a<br>poet TT EETT<br>10! 1 10 102 { (MHz) 198<br>PRO2<br>Fig.36 Impedance as a function of applied frequency.<br>MLB770<br>og ee ee<br>ee— eee TTT<br>wo  EL anal ELIE<br>—j itfe aati<br>| a ee ert<br>fe ee ee ee ee<br>a aaa<br>vo — TRAN ETT<br>— | PPPNET elo | [LTT]<br>eI COS<br>Po a ee<br>ot — LTEET<br>to" 1 10 10? 103<br>f (MHz)<br>PRO2<br>Fig.37 Phase angle as a function of applied frequency.<br>**----- End of picture text -----**<br>


2000 Sep 08 

282 

BCcomponents 

Product specification 

Professional power metal film resistors 

PROV/O2/03 

**==> picture [389 x 502] intentionally omitted <==**

**----- Start of picture text -----**<br>
EES<br>"eer<br>- pon |<br>=SS SS SS SSS SSS<br>= = Se<br>PSS eS SS<br>=a ECE i<br>ro SSE see te<br> a 7 10 102 f (MHz) 108<br>PROS<br>Fig.38 Impedance as a function of applied frequency.<br>i ee TT<br>“a Pi let ls eel<br>| te eee<br>» me Ls T1 eee eal<br>! at | ina po PET<br>oe ee al meen<br>- mS ase Mal Ban<br>-60Ee|  t— —]SetPs — Sot<br>| ans ip TPs EL poral<br>| il ESS |<br>“eo<br>1 10 102 + (MHz) 103<br>PRO3<br>. Fig.39 Phase angle as a function of applied frequency.<br>**----- End of picture text -----**<br>


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283 

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Product specification 

## Professional power metal film resistors 

## PROV/O2/03 

## MECHANICAL DATA 

## Mass per 100 units 

**==> picture [18 x 29] intentionally omitted <==**

**----- Start of picture text -----**<br>
PROB<br>**----- End of picture text -----**<br>


## Mounting 

The resistorsee are suitable for processing| on automatic insertion equipment and cutting and bending machines. 

## Marking 

The nominal resistance and tolerance are marked on the resistor using four coloured bands in accordance with IEC publication 60062, “Colour codes for fixed resistors”. 

## Outlines 

The length of the body (L1) is measured by inserting the leads into holes of two identical gauge plates and moving these plates parallel to each other until the resistor body is clamped without deformation (“IEC publication 60294”). 

## Mounting pitch 

**==> picture [276 x 362] intentionally omitted <==**

**----- Start of picture text -----**<br>
PITCH<br>TYPE LEAD STYLE<br>cropped and formed<br>doubledouble kinkKink smalare pitchpitch<br>PROD | straight leads<br>ail ape<br>cropped and armed<br>double Kink Tage itch<br>double kink small pitch ee<br>. 7m 7<br>PRO3 straight leads<br>cropped and formed<br>doubledouble kinkKink largesmall pichpitch [200 [8<br>ote<br>_<br>1, Recommended minimum value.<br>41 ——<br>4<br>= > @d<br>ccsats<br>@D<br>Ly ———<br>For dimensions see Table 4.<br>Fig.40 Type with straight leads.<br>**----- End of picture text -----**<br>


Table 4 Straight lead type and relevant physical dimensions: see Fig.40 

**==> picture [262 x 90] intentionally omitted <==**

**----- Start of picture text -----**<br>
TYPE MAX.OD MAX.ly MAX.Lz (mm)Od<br>(mm) (mm) (mm)<br>0.8 £0.03<br>PRO2 3.9 10.0 12.0 0.58 +0.05<br>0.8 +0.03<br>PRO3 5.2 16.7 19.5 0.58 +0.05<br>**----- End of picture text -----**<br>


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Product specification 

Professional power metal! film resistors 

PROW/Oe2/03 

**==> picture [374 x 147] intentionally omitted <==**

**----- Start of picture text -----**<br>
\—__--- .. D<br>an (a<br>2 mies 0<br>a___— P43 > we 2B<br>~ | i<br>SN —$__——- Pp CCB022<br>wv<br>Dimensions in mm.<br>For dimensions see Tables 4 and 5.<br>**----- End of picture text -----**<br>


Fig.41 Type with cropped and formed leads. 

Table 5 Cropped and formed lead type and relevant physical dimensions; see Fig.41 

|TYPE|LEADSTYLE|on<br>(vm<br>my<br>osm] ia | 8 | <br>oe]<br>13 fe|en)<br> wa|s<br>MAX.<br>(mm)<br> [2|@B<br>MAX.<br>(mm)<br> |_||
|---|---|---|---|---|---|
||Pee <br>note<br>1|{_o6005[<br>a1 |e |<br> 0||||
|||Poswosf<br>ia8||||



Note 

1. Can be replaced by double kinked versions; see Fig.42. 

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**==> picture [462 x 430] intentionally omitted <==**

**----- Start of picture text -----**<br>
||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|
|Professional|power|metal|film|resistors|PROVO2/03|
|TPd||@D|P, +05oO|
||||
|=|
|||_Ths|poo ||
|at!|:|||||||459|
|a‘|~|Noa|—~al|le|_|
|———|P2 +3 ____,!|8|@B +0.07|| b2|ccaceo|
|Dimensions|in|mm.|
|For|dimensions|see|Tables|4|and|6.|
|(1)|0.8|to|1.4|or|G0.6 to|1.6.|
|Fig.42|Type|with|double|kink.|
|Table|6|Double|kink|lead|type|and|relevant|physical|dimensions;|see|Fig.42|
|$s|
|TYPE|||LEAD STYLE|od|bt|be|h|Pi|Po|||max.|||28|
|(mm)|(mm)|(mm)|(mm)|||(mm)|||(mm)|(mm)|(mm)|
|double|kink|1.10|1.45|
|ga|Ce+|
|double|kink|1.10|1.45|
|—|[Eadoubledouble kinkkink|_[os]+|kn]1.101.30|tian1.451.65||e ||mm|[ve|[>|[on|||
|double|kink|1.10|1.45|
|+|
|(Eos)|
|double|kink|1.30|tino2.15|fe fe [a|[om|

**----- End of picture text -----**<br>


Table 6 Double kink lead type and relevant physical dimensions; see Fig.42 

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286 

BCcomponents 

Product specification 

## Professional power metal film resistors 

## PROl/O2/03 

## TESTS AND REQUIREMENTS 

. . . . 

In Table 7 the tests and requirements are listed with reference to the relevant clauses of 

LCT/UCT/56 (rated temperature range: Lower Category Temperature, Upper Category Temperature; damp heat, long term, 56 days). Thetesting[ also] covers[ the] requirements specified by EIA and EIAJ. 

description of the test procedure is also given. In some instances deviations from the IEC recommendations were necessary for our method of specifying. 

All soldering tests are performed with mildly activated flux. 

The tests are carried out in accordance with IEC publication 60068-2, “Recommended basic climatic and mechanical robustness testing procedure for electronic components” and under standard atmospheric conditions according to “EC 60068-1”, subclause 5.3. 

Table 7 Test procedures and requirements 

|60115-1<br>CLAUSE|TEST<br>METHOD|TEST|PROCEDURE|REQUIREMENTS|
|---|---|---|---|---|
|SD <br>[aaa |__|dimenstons<br>4.5||Gi<br>dimenstons (outline) <br>resistance|nodamage<br> [gaugemm)<br>__——=—SCS~*~S~S~sdCOSC«<br>Talesa San |<br>applied voltage (+0/-10%):<br>R — Raom: max. +5%||
||||R<102:0.1V||
||||10Q<R<1002:0.3V||
||||100QN<SR<1kQ:1V||
||||TkQSR<10kQ:3V||
||||10kQ<br>SR< 100kQ:10V||
||||100 kQSR<1MQ:25V||
||||R=1MQ:50V||
|||soldering heat|6mm from body||
|||resistance|followed by brushing||
||||in accordance with “MIL 202 F”||
|SOcee<br>insulation<br>during 1 minute; metal block method|||||



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287 

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Product specification 

## Professional power metal film resistors 

## PROW/O2/03 

|60115-1<br>CLAUSE|TEST<br>METHOD|TEST||PROCEDURE||REQUIREMENTS|REQUIREMENTS|
|---|---|---|---|---|---|---|---|
|4.16|21 (U)|robustness of||||||
|||terminations:||||||
|4.16.2|21 (Ual)|tensile all samples |load 10 N; 10s|||number offailures:||<1 x 1076|
|4.16.3|21 (Ub)|bending half||load 5 N; 4 x 90°|number of failures:||<1 x 10-6|
|||number of||||||
|||samples||||||
|4.16.4|21 (Uc)|torsion other|half |3 x 360° in opposite directions|||nodamage||
|||of samples|||AR/R max.: +0.5%||+ 0.05 Q|
|4.20|29 (Eb)|bump||3 x<br>1500 bumps in three directions;||no damage||
|||||40g|AR/R max.: 0.5%||+ 0.05 Q|
|4.22|6 (Fc)|vibration||frequency 10 to 500 Hz; displacement||no damage||
|||||1.5 mm or|AR/R max.: 0.5%||+ 0.05 Q|
|||||acceleration 10 g; three directions;||||
|||||total 6 hours (3 x 2 hours}||||
|4.19|14 (Na)|rapid change of||30 minutes at LCT and||no visual damage||
|||temperature||30 minutes at UCT; 5 cycles|PROT:AR/R|AR/R max.:|1% + 0.05 Q|
||||||PRO2:|AR/R max.:|1% + 0.05 Q|
||||||PRO3:|AR/R max.: +2% + 0.05 Q||
|4.23||climatic sequence:||||||
|4.23.3|30 (Db)|damp heat||||||
|||(accelerated)||||||
|||15 cycle||||||
|4.23.6|30 (Db)|damp heat||6 days; 55 °C; 95 to 98% RH||Rings Min.: 103|MQ|
|||(accelerated)<br>remaining cycles|||AR/R max.:£3%||+ 0.1Q|
|4.24.2|3 (Ca)|damp heat||56 days; 40 °C; 90 to95% RH; loaded||Rins Min.:<br>1000 MQ||
|||(steady state) (IEC)||with 0.01 P,, (IEC steps: 4 to 100 V)|AR/R max.:43%||+ 0.12|
|4.25.1||endurance||1000 hours; loaded with P, or Vmax’|AR/R max.:5%||+ 0.1 Q|
|||(at 70 °C)||1.5 hours on and 0.5 hours off||||
|fee |||lection’<br>coefficient|[iting I <br>(TC x 10-6/K)||||||
|4.17|20 (Th)|solderability||8 hours steam or 16 hours 155 °C;|good|tinning (295% covered);||
|||(after ageing)||leads immersed 6 mm for 2 +0.5 sina||no damage||
|||||solder bath at 235 +5 °C||||
|4.6.1.1<br>insulation resistance <br>fen |<br>see2"amendment | pulse load|||||maximum voltage (DC) after 1 minute;<br>metal blockmethod|see|Rins min.: 104MQ<br> Figs 5, 6, 7, 8,|MQ<br>9 and 10|
|to IEC 60015-1,||||||||
|Jan.‘87||||||||



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