Industry’s widest range! 1mΩ-1M, to ±. 05% 10ppm!
Built-in standoffs minimize heat transfer to P.C.B.
Available on exclusive SWIFTTM delivery program!
TYPICAL PERFORMANCE CHARACTERISTICS
Significant space savings compared to axial-lead types!
PV, PVH, and PWV resistors are designed for power applications where
space is at a premium. The PV series offers lowest cost for medium
power applications. PVH series are similar except in 4-terminal Kelvin
design (to cancel lead wire effect). PWV bracketed resistors enable
higher power levels and superior performance in applications involving
shock and vibration. The ceramic construction is fireproof and resistant
to moisture & solvents. The internal element is wirewound on lower values,
power film on higher values (depending on options, e.g. op
t.
P parts are
always WW). If a specific construction is preferred, specify opt.’WW’ for
wirewound, opt.’M’ for power film (not available in all values).
PV SERIES - 2 Terminal
PVH SERIES - 4 Terminal
PWV SERIES - Bracket Mount
C
F
.036”
±.005
lead is
terminated
to metal
bracket
EB
.022”.125”
min.
D(3)
A
D
← A →↑
C
↓→ ←
E
B
.125”
min
F (dia)
Mounting Layout
.125”
min
D
← A →↑
C
↓
→ ←
E
B
.040”
(.048 opt.B)
Mounting Layout
F
E
.032x.08” 5-15W, .05x.12” 20-25W (3)
.05” dia.
E
BMounting Layout
RESISTORSCAPACITOR
S
C
OILSDELAY
LINES
SEIRES VP dtSegattaW )B.tpO( .xaM *egatloV .xaM *tnerruC siseRdtS egnaR A]0.1[40.± B]0.1[40.± C]6.1[260.± D]1[40.± E]21.[500.± F)moN(
2VP)W3(W2V08A41500. ΩM1ot]4.11[054.]6.7[003.]3.02[008.]5[791.]7.[820.]9.[630.
3VP)W4(W3V051A71500. ΩM1ot]1.21[574.]9.8[053.]9.42[089.]5[791.]8.[130.]1[040.
5VP)W6(W5V052A22500. ΩM1ot]7.21[005.]2.9[063.]4.52[00.1]5[791.]8.[130.]1[040.
7VP)W01(W7V053A62500. ΩM1ot]7.21[005.]01[004.]6.83[25.1]5[791.]8.[130.]1[040.
01VP)W21(W01V005A23500. ΩM1ot]7.21[005.]01[004.]3.15[20.2]5[791.]8.[130.]1[040.
S01VP)W21(W01V004A23500. ΩM1ot]9.51[526.]7.21[005.]6.83[83.1]4.7[092.]9.[630.]2.1[840.
A01VP)W21(W01V004A23500. ΩM1ot]9.51[526.]7.21[005.]6.83[83.1]5[791.]9.[630.]2.1[840.
SEIRES HVP egattaW )B.tpO(dtS .xaM *egatloV *tnerruCxaM )B.tpO(dtS siseRdtS egnaR A]0.1[40.± B]0.1[40.± C]6.1[260.± D]1[40.± E]6.[420.±
"300.±F dtS )B.tpO(
2HVP)W3(W2V08)A71(A41100. ΩK01ot]4.11[054.]6.7[003.]3.02[008.]5[791.]19.1[570.)040.(230.
3HVP)W5(W3V051)A22(A71100. ΩK52ot]1.21[574.]9.8[053.]9.42[089.]5[791.]45.2[001.)040.(230.
5HVP)W7(W5V052)A62(A22100. ΩK03ot]7.21[005.]01[004.]4.52[00.1]5[791.]45.2[001.)040.(230.
7HVP)W01(W7V053)A23(A62100. ΩK05ot]7.21[005.]01[004.]6.83[25.1]5[791.]45.2[001.)040.(230.
01HVP)W21(W01V005)A04(A23100. ΩK052ot]7.21[005.]01[004.]3.15[20.2]5[791.]45.2[001.)040.(230.
S01HVP)W21(W01V004)A04(A23100. ΩK052ot]9.51[526.]7.21[005.]6.83[83.1]4.7[092.]81.3[521.)040.(230.
A01HVP)W21(W01V004)A04(A23100. ΩK052ot]9.51[526.]7.21[005.]6.83[83.1]5[791.]81.3[521.)040.(230.
SEIRES VWP egattaW .xaM *egatloV xaM *tnerruC siseRdtS egnaR AxaM B]0.1[40.± C]0.1[40.± D]5.0[20.± E]5.1[60.± F]5.1[60.±
5VWP5V002A2210. ΩM1ot]6.53[04.1]01[004.]01[004.]5.1[060.]5[002.]5[002.
7VWP7V053A6210. ΩM1ot]3.74[68.1]01[004.]01[004.]5.1[060.]5[002.]5[002.
01VWP01V005A2310. ΩM1ot]5.26[64.2]01[004.]01[004.]5.1[060.]5[002.]5[002.
51VWP51V045A2310. ΩK051ot]5.26[64.2]7.21[005.]5.31[035.]5.2[001.]7.6[562.]7.6[562.
02VWP02V006A2310. ΩK051ot]7.67[20.3]7.21[005.]7.41[085.]5.2[001.]0.7[572.]5.7[592.
52VWP52V006A2310. ΩK051ot]7.67[20.3]7.21[005.]7.41[085.]5.2[001.]0.7[572.]5.7[592.
.pmeTfeoC.
C°/MPP )C°/001~52(
egnaR.seRVP &PWV )tseB(dtS)tseB(dtSHVP
9400.-100. ΩA/N)mpp05(mpp0021
9900.-500. Ω)mpp05(mpp008)mpp52(mpp006
420.-10. Ω)mpp05(mpp006)mpp52(mpp002
940.-520. Ω)mpp03(mpp005)mpp52(mpp051
990.-50. Ω)mpp02(mpp004)mpp01(mpp09
99.-1. Ω)mpp02(mpp053)mpp01(mpp05
1Ωevoba&)mpp01(mpp002)mpp5(mpp02
.pmeTgnitarepO)liavaC°572(C°022+ot°55-
htgnertScirtceleiDV0001
(daolrevo.ceS5 ≤)Vxamx5.1)X5=WW.tpO(egattawdetarX3
ecnatsiseRerutsioM%0.3
erusopxE.pmeThgiH%0.1
)sruoh0001(efiLdaoL%0.3
decuder(ecnatcudnIXtpO )Hn76ot.liavaslevelecnatcudni X.tpO ≤:W5 ≤05 Ω,xamHu2.= >05 ΩxamHu73.=
X.tpO ≥:W7 ≤05 Ω,xamHu3.= >05 Ωxamu6.=
esiRerutarepmeT1rewopdetarlluftapytC°022ot52
)A,V,W(gnitareDC°52evobaC°/%315.ybetareD
OPTIONS
Option X - Non-Inductive
Option WW or M (wirewound or film element)
Option P - Increased pulse capability
Option FF- Fuse within 10S @50x rated W (custom avail)
Option E - Low thermal EMF design
Option B - Increased power (refer to chart below)
Numerous modifications avail: custom marking,
TC’s to +6000ppm, various lead wire sizes, burn-in, etc.
* Units not to exceed wattage, voltage, or current rating, whichever is less. Voltage determined by E= , E not to exceed max
voltage rating. Multiply voltage rating by 0.7 for Opt. X. Increased voltage & current ratings available (up to 1KV, 100A).
FA053C Sale of this product is in accordance with GF-061. Specifications subject to change without notice.
RoHS
Term.W is
RoHS
compliant &
260°C
compatible
RCD PWV15
2 W TO 2 5 WAT T VERTICAL MOUNT RESISTORS
RCD
PV7
RCD
PVH10
RCD
PV5
√PR
P/N DESIGNATION:
Options: X, WW, P, M, FF, E, B
(Leave blank if standard)
RCD T ype PV10 - 100 - J B W
Packaging: B=bulk (standard)
Tolerance: A=0.05%, B=0.1%, C=0.25%, D=0.5%,
F=1%, G=2%, J=5%(std), K=10%
Optional TC: 10=10ppm, 20=20ppm, 50=50ppm, 101=100ppm,
201=200ppm, etc. (leave blank if standard)
Resis.Code .05%-1%: 3 signif. figures & multiplier, e.g. R001=.001Ω,
R010=.01Ω, R100=.1Ω, 1R00=1Ω, 10R0=10Ω, 1000=100Ω, 1001=1K.
Resis.Code 2%-10%: 2 signif. figures & multiplier, e.g. R001=.001Ω,
R01=0.01Ω, R10=0.1Ω, 1R0=1Ω, 100=10Ω, 101=100Ω, 102=1K.
Termination: W= Lead-free, Q= Tin/Lead (leave blank if either is acceptable,
in which case RCD will select based on lowest price and quickest delivery
RCD C omponents I nc, 520 E.Industrial Park Dr, Manchester, NH, USA 03109 rcdcomponents.com Tel: 603-669-0054 Fax: 603-669-5455 Email:sales@rcdcomponents.com
48
