EEWORLDEEWORLDEEWORLD

Part Number

Search

615-L4220-FB1220W

Description
Fixed Resistor, Wire Wound, 25W, 422ohm, 550V, 1% +/-Tol, 20ppm/Cel,
CategoryPassive components    The resistor   
File Size53KB,1 Pages
ManufacturerRCD Components Inc.
Websitehttp://www.rcdcomponents.com/
Environmental Compliance
Download Datasheet Parametric View All

615-L4220-FB1220W Overview

Fixed Resistor, Wire Wound, 25W, 422ohm, 550V, 1% +/-Tol, 20ppm/Cel,

615-L4220-FB1220W Parametric

Parameter NameAttribute value
Is it Rohs certified?conform to
Objectid881579232
Reach Compliance Codecompliant
Country Of OriginMainland China, Taiwan, USA
ECCN codeEAR99
YTEOL7.6
structureWelded
JESD-609 codee3
Lead length304.8 mm
Number of terminals2
Maximum operating temperature250 °C
Minimum operating temperature-55 °C
Package height13.9 mm
Package length27 mm
Package formAxial
Package width13.5 mm
method of packingBulk
Rated power dissipation(P)25 W
resistance422 Ω
Resistor typeFIXED RESISTOR
series615(F TOL, OPT TC)
technologyWIRE WOUND
Temperature Coefficient20 ppm/°C
Terminal surfaceMatte Tin (Sn)
Tolerance1%
Operating Voltage550 V

615-L4220-FB1220W Preview

ALUMINUM HOUSED RESISTORS
RESISTORS CAPACITORS COILS DELAY LINES
600 SERIES
RoHS
Term.W is
RoHS
compliant
& 260°C
compatible
Standard units feature lug terminals (605 - 630)
or threaded terminals (635 & 640).
Option L (605-625): Insulated stranded wires
embedded into the case. Black TFE 18awg x
12”L with ¼” strip is standard (16awg TFE &
14awg PVC avail). Also available with 4 insulated
lead wires (Opt.4L), and with a wide variety of
terminals... quick-connect male (Opt. LM=.25x.032);
female (Opt. LF=.25x.032”, LFS=.187x.020);
ring terminal (Opt. LR=.145” I.D., LRR=.25” I.D.).
Option 2T & 4T (605-625): Straight leadwires.
2T is 2-terminal design, 4T is 4-terminal. Each
have 18awg x 1” min lead length. 16awg x 1”
and 12AWG x .5” also available (12 AWG not
avail in Opt 4T).
Widest selection in the industry! 5 to 1000 Watt
0.005Ω to1MΩ, tolerance to .01%, TC to 5ppm
High power in compact size
Welded construction, low noise, high pulse capability
Available on exclusive
SWIFT
TM
delivery program!
Option X:
Non-inductive
Option P:
Increased pulse capability
Option ER:
100 hour burn-in per MIL-PRF-39009
Option B:
Increased power
Additional modifications: unanodized cases, custom marking,
increased dielectric/creepage & working voltage, low thermal emf
(opt.E), etc. Customized components are an RCD Specialty!
A
L
D
605-630
View From Top
B
N
H
C
Type 630 & 640 have 4 mounting holes
A
L
D
635-640
View From Top
B
H
F E
605-630
View From Side
G
Option 4R (605-630): 4-terminal design. 16AWG
lug terminals are welded to standard terminals.
F E
635-640
View From Side
C
G
Option Q (605-630): .187x.020” male fast-on
terminal; Opt. Q2 is .250x.032 male terminal).
3.00±.01”
(640 only)
1/4-20,12-24
SPECIFICATIONS:
Consult factory for dimensions on liquid cooled design up to 1000 Watt
RCD
Type
605
MIL Type
1
RE/RER60
Wattage,Mounted
Std
7.5
Opt.B
15
MIL
5
Resis.
Voltage
Range (
) Rating
2
.005-20K
160
A
±.005
B
±.005
C
±.062
D
±.062
E
±.031
F
±.031
G
±.031
H
±.010
L
±.005
N
±.005
Mtg
Screw
1
.444
.490
.600
1.125
.334
.646
.320
.065
.093
.050
#2
[11.3]
[12.5]
[15.2]
[28.6]
[8.5]
[16.4]
[8.2]
[1.6]
[2.4]
[1.3]
[M2]
.562
.625
.750
1.375
.420
.800
.405
.075
.093
.086
#2
610 RE/RER65 12.5
20
10 .005-100K
265
[14.3]
[15.9]
[19.0]
[35.0]
[10.8]
[20.3]
[10.3]
[1.9]
[2.4]
[2.2]
[M2]
.719
.781
1.062
1.938
.531
1.080
.546
.088
.125
.086
#4
615 RE/RER70
25
35
20 .005-200K
550
[18.3]
[19.8]
[27.0]
[49.3
[13.5]
[27.4]
[13.9]
[2.2]
[3.2]
[2.2]
[M2.5]
1.563
.844
1.968
2.781
.609
1.140
.610
.088
.125
.086
#4
620 RE/RER75
50
60
30 .005-400K 1250
[39.7]
[21.5]
[50.0]
[70.6]
[15.6]
[28.8]
[15.5]
[2.2]
[3.2]
[2.2]
[M2.5]
1.563
.844
2.850
3.663
.609
1.140
.610
.088
.125
.086
#4
625
-
75
-
-
.01-500K
1900
[39.7]
[21.5]
[72.4]
[93.0]
[15.6]
[28.8]
[15.5]
[2.2]
[3.2]
[2.2]
[M2.5]
1.377±.01 1.457±.01
2.579 3.38±.09
1.053
1.839 .960±.05 .138±.03 .173±.01 .086 Min
#8
630
-
100
-
-
0.1-100K
1900
[35.0]
[37.0]
[65.5]
[85.9]
[26.7]
[46.7]
[24.4]
[3.5]
[4.4]
[2.2]
[M4]
#8
2.75±.01
2.25±.01
3.50
5.48±.09
1.812
2.812
1.75
.188±.03 .188±.01
n/a
635
RE77
100
150
75
0.1-600K
1900
[M4]
[69.85]
[57.15]
[88.9] [139.14]
[46.0]
[71.42] [44.45]
[4.78]
[4.78]
#8
3.875±.01 2.50±.01
4.50
7.00±.09
2.125
3.00
2.188
.250±.03 .188±.01
n/a
640
RE80
250
300
120
0.1-1M
2300
[M4]
[98.42]
[63.5]
[114.3]
[177.8]
[53.98]
[76.2]
[55.58]
[6.35]
[4.78]
Military part numbers are for reference only and do not imply qualification.
2
Max. voltage = ( PR)
½
, not to exceed the value listed (increased ratings avail). Multiply by 0.7 for Opt.X.
TYPICAL PERFORMANCE CHARACTERISTICS:
Temp.Coefficient
.0 0 5 - .0 0 9 9
Ω :
.0 1 - .0 4 9
Ω :
. 0 5 - . 0 9 9
Ω:
. 1 - . 9 9
Ω:
1 - 9 . 9
Ω:
1 0
& a b o ve :
6 0 0 p p m s td (2 0 0 , 3 0 0 p p m o p t.)
3 0 0 p p m s td (1 0 0 , 2 0 0 p p m o p t.)
2 0 0 p p m s td (5 0 , 1 0 0 p p m o p t.)
9 0 p p m s td (1 0 , 2 0 , 3 0 , 5 0 p p m o p t)
5 0 p p m s td (1 0 , 2 0 , 3 0 p p m o p t.)
2 0 p p m s td (5 , 1 0 p p m o p t.)
DERATING
: Power rating is based on the use of a suitable heat sink and thermal
compound to limit case temp. to 200°C. Derate wattage 0.44%/°C above 25°C.
Recommended aluminum chassis area is 64in² x.040” thick for type 605 and 610,
83in² x.040” thick for type 615, 144in² x.060” thick for type 620, and 144in² x .125”
for types 625 through 640. Without a heat sink, derate wattage rating by 60%.
P/N DESIGNATION:
610 -
1001 - F B
W
Dielectric (DWV)
Optional
Standard
3
605, 610
1K V
2KV (Opt.36), 2.5KV (Opt.34)
615, 620, 625
2K V
2.5KV (Opt.34), 3KV (Opt.41)
630, 635, 640
2.5KV
3KV (Opt.41), 4KV (Opt.65)
Inductance, Opt.X
50
>50
605
0.2uH Max 0.37uH Max
610, 615
0.3uH Max 0.6uH Max
620, 625
0.65uH Max 1.2uH Max
630, 635, 640
1.5uH Max 3.0uH Max
Load Life (1000 hrs) ±1% (±2% for 625-640, and ±3% Opt.B)
Moisture Resistance ±0.5%
Overload
5x rated W, 5 Sec (V not to exceed DWV)
Terminal Strength
10-lb pull test
Insul. Resistance
10,000M
Operating Temp.
-55°C to +250°C
3
The dielectric strength on Opt. L resistors is 50% of standard (available up to 3KV)
RCD Type
Options:
X, Q2, Q, P, LRR, LR, LM, LFS, LF, L, ER,
E, B, 65, 41, 36, 34, 16, 14, 4T, 4R, 4L (leave blank if std)
Resis. Code
:
1%:
3 signif. figures & multiplier,
e.g. R010=0.01Ω, R100= 0.1Ω, 1R00= 1Ω,1000= 100Ω, 1001= 1KΩ
Resis. Code 2% - 10%:
2 signif. figures & multiplier, e.g.
R01Ω=0.01, R10= 0.1Ω, 1R0= 1Ω,100= 10Ω, 102= 1KΩ
Tolerance:
K=10%, J=5%, H=3%, G=2%, F=1%, D=0.5%,
C=0.25%, B=0.1%, A=0.05%, Q=0.02%, T=0.01%
Packaging:
B = standard
Non-std lead length for option L (inches):
(12” = std) 4”, 16”, etc.
Optional TC
(leave blank if std): 5=5ppm, 10=10ppm; 20=20ppm;
30=30ppm; 50=50ppm; 101=100ppm, 201=200ppm, 301=300ppm)
Termination:
W= Lead-free, Q= Tin/Lead (leave blank if either is acceptable)
RCD Components Inc,
520 E.Industrial Park Dr, Manchester, NH, USA 03109
rcdcomponents.com
Tel: 603
-
669
-
0054 Fax: 603
-
669
-
5455 Email:sales@rcdcomponents.com
FA018E
Sale of this product is in accordance with GF-061. Specifications subject to change without notice.
46
How to write the corresponding program process according to the timing diagram
I just got a chip. For commonly used chips, you can refer to the routines on the Internet for in-depth understanding. For an uncommon chip, the Datasheet is almost the only information for using the c...
fish001 Microcontroller MCU
Differences and similarities between detection circuits, filter circuits, frequency selection circuits, threshold comparison circuits, and bandpass circuits
The differences and similarities between detection circuits, filter circuits, frequency selection circuits, threshold comparison circuits, and bandpass circuitsI have been studying circuits for so lon...
QWE4562009 MCU
When designing PCB, how to consider electromagnetic compatibility EMC/EMI, specifically...
[size=4][b]Question[/b][/size] [size=4]How to consider electromagnetic compatibility (EMC/EMI) when designing PCB? What specific aspects should be considered? What measures should be taken? [/size]...
ohahaha PCB Design
How to measure the PWM generated by msp430f149 with an oscilloscope
I connected the red test lead to pin 46 (the pin that generates PWM) and the black test lead to gnd on the board, but the oscilloscope did not display a waveform and the PWM indicator light was flashi...
q胡= TI Technology Forum
EEWORLD University ---- Signal Processing on MSP430 16-bit MCU
Signal Processing on MSP430 16-bit MCU : https://training.eeworld.com.cn/course/4989...
wanglan123 Talking
What should I do if the segment code LCD screen has too many segments and the pins cannot be placed?
[align=left][color=rgb(0, 0, 0)][font=Verdana, Arial, Helvetica, sans-seri][size=14px] There are three common ways to connect segment code LCD screens: 1. Metal pins 2. Zebra stripes 3. FPC, etc.; of ...
晶拓 Integrated technical exchanges

Technical ResourceMore

EEWorld
subscription
account

EEWorld
service
account

Automotive
development
circle

Datasheet   0 1 2 3 4 5 6 7 8 9 A B C D E F G H I J K L M N O P Q R S T U V W X Y Z
Room 1530, 15th Floor, Building B, No. 18 Zhongguancun Street, Haidian District, Beijing Telephone: (010) 82350740 Postal Code: 100190
Copyright © 2005-2024 EEWORLD.com.cn, Inc. All rights reserved 京ICP证060456号 京ICP备10001474号-1 电信业务审批[2006]字第258号函 京公网安备 11010802033920号