Various types of standard circuits in different sizes and power are available. (Seated height 5.08mm, 6.5mm, 10.7mm Max.)
・
For automatic insertion machines, stick magazines (the tip of lead terminal is cut to a V shape) and taping packages (TBA: All leads taping, TPA, TUA:3 leads
taping) are applicable.
・
Products with lead free termination meet EU-RoHS requirements. EU-RoHS regulation is not intended for Pb-glass contained in electrode, resistor element and
glass.
Network Resistors
■ Type Designation
Example
RKL
Circuit
A, B, C, D, S
Product
Code
RKL
RKC
RKH
RKL
RKC
RKH
8
Number of
Elements
C
Circuit
Symbol
A, B, C, D, S
D
Terminal
Surface Material
STP
Taping &
Stick
Nil: Bulk
STP:Stick
STB:Stick
TPA
(4〜9pins) TUA
or (10pins)
:
Taping
(3 leads)
TBA
(4〜10pins) :
Taping
(All leads)
103
Nominal
Resistance
G, J : 3 digits
F : 4 digits
R1/R2
3 digits/3 digits
J
Resistance
Tolerance
F : ±1%
G : ±2%
J : ±5%
※R circuit: G, J only
D : SnAgCu
(L : Sn/Pb)
T, E, R
T, E, R
The symbol showing 1.8 pitch is added to the type designation after its circuit symbol.
‘S’
The taping style of RKH is bulk only.
RKC
Circuit
L
K
Tolerance:±1/2 LSB
8
Number of
Bits
L
Circuit
Symbol
L
K
D
Terminal
Surface Material
D : SnAgCu
(L : Sn/Pb)
STP
Taping &
Stick
See table above
Nil: Bulk
103
Output Impedance(L circuit)
Resistance of MSB(K circuit)
3 digits
Product
Code
RKC
RKC
M−
Custom R. Net
Symbol
6000
KOA Ref. No.
D
Terminal
Surface Material
The terminal surface material lead free is standard.
Contact us when you have control request for environmental hazardous material other than the substance specified by
EU-RoHS.
For further information on taping, please refer to APPENDIX C on the back pages.
Specifications given herein may be changed at any time without prior notice. Please confirm technical specifications before you order and/or use.
Contact our sales representatives before you use our products for applications including automotives, medical equipment and aerospace equipment.
Malfunction or failure of the products in such applications may cause loss of human life or serious damage.
For resistors operated at an ambient temperature of 70℃ or higher, the power shall be derated in accordance with the above derating curve.
■Precautions for Use
・The
conditions of flow soldering for lead-free terminal resistors are set up at 260℃ max. within 10 sec.
・A
few cross talks will happen in network resistors. Design the circuit taking the effect by the cross talks into consideration as very low voltage will occur to the
resistor elements that don’t pass current by the voltage drop in common electrode if current flows to the common electrodes.
Specifications given herein may be changed at any time without prior notice. Please confirm technical specifications before you order and/or use.
Contact our sales representatives before you use our products for applications including automotives, medical equipment and aerospace equipment.
Malfunction or failure of the products in such applications may cause loss of human life or serious damage.
Oct. 2020
www.koaglobal.com
NETWORKS
■ Ratings
Type
Circuit
Symbol
B
C
D
A
T
E
RKC
S
R
L
K
B
C
D
A
RKL
T
E
S
R
B
C
D
A
RKH
T
E
S
R
RKL
M-
RKC
(1.8pitch)
RKC
(2.54pitch)
RKH
Number
of Pins
3〜16
5〜13
5〜14
4〜14
5〜13
5〜13
4〜14
4〜16
6〜10
5〜9
3〜12
5〜11
5〜12
3〜12
5〜11
5〜11
4〜12
4〜11
4〜13
5〜13
5〜12
4〜12
5〜13
5〜13
4〜12
5〜11
3〜12
4〜14
3〜16
4〜13
500
250
100
125
250
500
1000
250
200
125
125
250
125
20
40
125
Power Rating
(mW/Element)
RKL RKC RKH
・
・
Resistance
Range
22Ω〜2.2MΩ
(E24)
EU
RoHS
Standard Thick Film Resistor Networks
Resistance
Tolerance
T.C.R.
(×10
−6
/K)
Max. Working
Voltage
Rated Ambient
Temp.
Operating Temp.
Range
F : ±1%
G : ±2%
J : ±5%
±200
200V
+70℃
−55℃〜
+155℃
100Ω〜100kΩ
(E24)
R=2.5kΩ, 5kΩ
10 kΩ, 25kΩ
50 kΩ, 100kΩ
R1
(MSB)
:100Ω Min
Rn LSB)
(
:1MΩ Max
G : ±2%
J : ±5%
±1/2LSB
(Bit Error)
±1/2LSB
(Bit Error)
−55℃〜
+125℃
±200
20V
+70℃
Network Resistors
22Ω〜1MΩ
(E24)
F : ±1%
G : ±2%
J : ±5%
±200
100V
+70℃
−55℃〜
+125℃
100Ω〜100kΩ
(E24)
G : ±2%
J : ±5%
56Ω〜2.2MΩ
(E24)
F : ±1%
G : ±2%
J : ±5%
±200
250V
+70℃
−55℃〜
+155℃
100Ω〜100kΩ
(E24)
G : ±2%
J : ±5%
100V
±0.5%
±1%
±2%
±5%
50V
+70℃
200V
250V
10Ω〜10MΩ
±100
±150
±200
−55℃〜
+125℃
■ Performance
Test Items
Resistance
T.C.R.
Overload
(Short time)
Resistance to soldering heat
Rapid change of temperature
Moisture resistance
Endurance at 70℃
Performance Requirements
ΔR±
(%+0.05Ω)
Limit
Within specified tolerance
Within specified T.C.R.
0.5
0.5
0.5
2
2
Typical
—
—
0.25
0.25
0.25
1
1
25℃
+25℃/−55℃ and +25℃/+125℃
(RKL)
+25℃/−55℃ and +25℃/+155℃
(RKC, RKH)
Rated voltage×2.5 for 5s
260℃±5℃, 10s±1s
−40℃
(30min.)
/+85℃
(30min.) cycles
5
40℃±2℃, 90%〜95%RH, 1000h
1.5h ON /0.5h OFF cycle
70℃±2℃, 1000h
1.5h ON /0.5h OFF cycle
Test Methods
Specifications given herein may be changed at any time without prior notice. Please confirm technical specifications before you order and/or use.
Contact our sales representatives before you use our products for applications including automotives, medical equipment and aerospace equipment.
Malfunction or failure of the products in such applications may cause loss of human life or serious damage.
Oct. 2020
www.koaglobal.com
■ Circuit Schematics
B circuit
R
RR
R
R
R
1
R
1 1
R
2
R
2 2
R
3
R
3 3 4
R
4 4
R
R
n
R
n n
S circuit
R
R
1
R
1 1
R
R
2
R
2 2
R
R
n
R
n n
C circuit
R
R
R
1
R
1 1
R
2
R
2 2
R
R
n
R
n n
1 11 2 22 3 33 4 44 5 55
n+1
n+1 n+1
1 11 2 22 3 33 4 44
2n-1 2n 2n
2n-12n-1 2n
1 11
n/2+1
n/2+1
n/2+1
n+1
n+1 n+1
R1 = R2 = R3 = R4 =……= Rn
n:number of elements
example
RKC8B 103 J
RKL8B 472 J
RKH8B 332 J
R1 = R2 =……= Rn
n:number of elements
example
RKC4S 103 J
RKL4S 472 J
RKH4S 332 J
R1 = R2 =……= Rn
n:number of elements
example
RKC8C 103 J
RKL8C 472 J
RKH8C 332 J
D circuit
A circuit
R
R
1
R
1
R
2
R
2
R
3
R
3
R
4
R
4
R
n
R
nn
R
1
R
2
R
3
R
4
T circuit
Network Resistors
R
1
R
1
R
1
R
2
R
2
R
2
R
1
R
1
R
1
R
2
R
2
R
2
3
33
4
44
5
55
R
1
R
1
R
1
R
2
R
2
R
2
n+1
n nn n+1
n+1
R
1
R
1
R
2
R
2
R
3
R
3
R
1
R
2
R
3
R
R
n
R
nn
1
11
2
22
3
33
4
44
n+1 n+2
n+1 n+2
n+1 n+2
1
11
2
22
3
33
4
44
5
55
n+1
n+1
n+1
1
11
2
22
R1 = R2 = R3 =……= Rn
n:number of elements
example
RKC8D 103 J
RKL8D 472 J
RKH8D 332 J
R1 = R2 = R3 = R4 =……= Rn
n:number of elements
example
RKC8A 103 J
RKL8A 472 J
RKH8A 332 J
R1 = R2 or R1 ≠ R2
n:number of elements
example
RKC8T 103/103 J
RKL8T 103/103 J
RKH8T 103/103 J
E circuit
R
R
1
R
11
R
R
2
R
22
1
1 1
2
2 2
3
3 3
R
R
1
R
11
R
R
2
R
22
4
4 4
5
5 5
R
R
1
R
11
R
R
2
R
22
n+1
n
n+1
n n n+1
R circuit
L circuit
R
RR
11
1
R
RR
22
2
R
R
R
2
R
22
R
2
R
22
R
R
R
1
R
11
R
1
R
11
R
RR
33
3
R
R
R
2
R
22
R
2
R
22
R
R
R
1
R
11
R
1
R
11
R
RR
44
4
R
RR
55
5
2R
R
RR
66
6
2R
2R
2R
2R
2R
R
R R
2R
R
7
RR
2R
77
2R
2R
2R
2R
R
R R
2R
R
R
2R
88
8
R
2R
R
R R
1
1 1
2
2 2
3
3 3
4
4 4
n/2+1 n/2+2
n/2+1 n/2+2
n/2+1 n/2+2
1
1 1
2
2 2
3
3 3
4
4 4
n+1 n+2
n+1 n+2
n+1 n+2
R1 = R2 or R1 ≠ R2
n:number of elements
example
RKC8E 103/103 J
RKL8E 103/103 J
RKH8E 103/103 J
R1 = R2 or R1 ≠ R2
n:number of elements
example
RKC16R 331/471 J
RKL16R 331/471 J
RKH16R 331/471 J
GND
LSB
MSB OUT
n:number of bits
example
RKC5L 253
K circuit
Example of custom circuit
R
2
R
2
R
2
R
4
R
4
R
1
R
1
R
3
R
3
R
3
R
4
R
5
R
5
Example of custom circuit
R
1
R
1
R
1
R
6
R
6
R
6
R
R
1
1
1
2
R 2R 2R 4R 4R8R 8R
2R
2
2
3
4R
3
8R
4
5
5
5
n+1
n+1 R
1
n+1
3 4
4
R
5
R
2
R
2
R
3
R
3
R
2
R
3
1
R
4
R
4
R
5
R
5
R
4
R
5
4
5
5
MSB
n:number of bits
example
RKC4K 102
LSB
R
RR
1
1 1
R
2
RR
2
1
2
2
1
1
2
2
R
3
RR
3
4
3
3
3
3 4
R
4
R
R
5
4 4
4
5
5
6
6
R
5
RR
5
5
1
6
1
R
6
RR
6
3
2
6
2
2
3
R
7
RR
7
4
7
3
4
R
RR
8
8 8
6
5
6
6 7
7
7
Specifications given herein may be changed at any time without prior notice. Please confirm technical specifications before you order and/or use.
Contact our sales representatives before you use our products for applications including automotives, medical equipment and aerospace equipment.
Malfunction or failure of the products in such applications may cause loss of human life or serious damage.
