232273375904 [YAGEO]
Fixed Resistor, Metal Glaze/thick Film, 0.125W, 590000ohm, 150V, 1% +/-Tol, 50ppm/Cel, Surface Mount, 0805, CHIP;
| 型号: | 232273375904 |
| 厂家: | 
YAGEO CORPORATION |
| 描述: | Fixed Resistor, Metal Glaze/thick Film, 0.125W, 590000ohm, 150V, 1% +/-Tol, 50ppm/Cel, Surface Mount, 0805, CHIP 电阻器 |
| 文件: | 总11页 (文件大小:80K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Philips Components
Product specification
Precision chip resistors
sizes 1206, 0805 and 0603
RC02/12/22
The resistive layer is covered with a
protective coat and printed with the
resistance value (no printing on
RC22). Finally, the two external end
terminations are added. For ease of
soldering the outerlayer of these end
terminations is a lead/tin alloy.
FEATURES
DESCRIPTION
• Low assembly costs
The resistors are constructed on a
high grade ceramic body (aluminium
oxide). Internal metal electrodes are
added at each end and connected by
a resistive paste which is applied to
the top surface of the substrate. The
composition of the paste is adjusted
to give the approximate resistance
required and the value is trimmed to
within tolerance, by laser cutting of
this resistive layer.
• High component and equipment
reliability
• Excellent performance at high
frequency, especially the RC22.
• TC 50 in thick film technology
• Complete precision SMD family.
APPLICATIONS
• All general purpose applications.
QUICK REFERENCE DATA
DESCRIPTION
VALUE
RC12H
0805 (2012)
RC02H
RC02G
RC12G
RC22H
Size code
1206 (3216)
0603 (1608)
Resistance range
1 Ω to 10 MΩ 100 Ω to 1 MΩ 1 Ω to 10 MΩ 100 Ω to 1 MΩ 1 Ω to 10 MΩ
Resistance tolerance and
E-series
±1%; E24/E96 series
Temperature coefficient; note 1:
1 Ω ≤ R < 5 Ω
≤ ±250
≤ ±200
≤ ±100
≤ ±100
≤ ±200
−
≤ ±250
≤ ±200
≤ ±100
≤ ±100
≤ ±200
−
≤ ±250
≤ ±200
≤ ±100
≤ ±100
≤ ±200
5 Ω ≤ R < 10 Ω
−
−
−
−
10 Ω ≤ R < 100 Ω
100 Ω ≤ R ≤ 1 MΩ
1 MΩ < R ≤ 10 MΩ
≤ ±50
−
≤ ±50
−
Maximum dissipation at
Tamb = 70 °C
0.25 W
200 V
0.125 W
150 V
(DC or RMS)
55/155/56 55/125/56
IEC 115-8
0.063 W
50 V
(DC or RMS)
Maximum permissible voltage
(DC or RMS)
Climatic category (IEC 68)
Basic specification
Stability after:
55/155/56 55/125/56
55/155/56
load, 1000 hours at Tamb = 70 °C:
1 Ω ≤ R ≤ 1 MΩ
∆R/R max.: ±1.0% +0.05 Ω
∆R/R max.: ±1.5% +0.05 Ω
R > 1 MΩ
climatic tests:
1 Ω ≤ R ≤ 1 MΩ
∆R/R max.: ±1.0% +0.05 Ω
∆R/R max.: ±1.5% +0.05 Ω
∆R/R max.: ±0.5% +0.05 Ω
∆R/R max.: ±1.0% +0.05 Ω
R > 1 MΩ
resistance to soldering heat
short time overload
Note
1. All TC values should be multiplied by 10−6/K.
1996 Nov 18
1
Philips Components
Product specification
Precision chip resistors
sizes 1206, 0805 and 0603
RC02/12/22
ORDERING INFORMATION
Table 1 Ordering code indicating type and packaging
ORDERING CODE 2322 ... .....
CARDBOARD TAPE ON REEL EMBOSSED CARRIER TAPE ON REEL
TYPE
5000 units
10000 units
20000 units
5000 units
10000 units
RC02H
724 6....
722 2....
734 6....
732 6....
704 6....
724 7....
722 3....
734 7....
732 7....
704 7....
724 8....
−
724 2....
723 6....
734 2....
733 6....
−
724 4....
723 7....
734 4....
733 7....
−
RC02G
RC12H
RC12G
RC22H
734 8....
−
704 8....
Jumper 0 Ω
RC02H; note 1
RC12H; note 1
RC22H; note 2
724 92006
734 92006
704 92006
724 92007
734 92007
704 92007
−
−
−
724 92002
734 92002
−
724 92004
734 92004
−
Notes
1. The jumper has a maximum resistance Rmax = 50 mΩ and a rated current IR = 2 A.
2. The jumper has a maximum resistance Rmax = 50 mΩ and a rated current IR = 1 A.
Ordering code (12NC)
Table 2 Last digit of 12NC
Type designation
• The resistors have a 12-digit
ordering code starting with 2322.
RESISTANCE
SIZE
TYPE
TC SERIES
LAST DIGIT
DECADE
RC02H
RC02G
RC12H
RC12G
RC22H
100
50
1206
• The subsequent 4 digits indicate
the resistor type and packaging;
see Table 1.
1 to 9.76 Ω
10 to 97.6 Ω
100 to 976 Ω
1 to 9.76 kΩ
10 to 97.6 kΩ
100 to 976 kΩ
1 to 9.76 MΩ
10 MΩ
8
9
1
2
3
4
5
6
100
50
0805
0603
• The remaining 4 digits indicate the
resistance value:
100
– The first 3 digits indicate the
resistance value.
– The last digit indicates the
resistance decade in
accordance with Table 2.
ORDERING EXAMPLE
The ordering code of a RC02H
resistor, value 4750 Ω, supplied on
cardboard tape of 5000 units per reel
is: 2322 724 64752.
1996 Nov 18
2
Philips Components
Product specification
Precision chip resistors
sizes 1206, 0805 and 0603
RC02/12/22
FUNCTIONAL DESCRIPTION
Product characterization
DERATING
The power that the resistor can dissipate depends on the operating
temperature; see Fig.1.
Standard values of nominal
resistance are taken from the
E24/E96 series for resistors with a
tolerance of ±1%. The values of the
E24/96 series are in accordance with
“IEC publication 63”.
MBE930
100
P
max
Limiting values
(%P
)
rated
LIMITING
TYPE VOLTAGE(1)
(V)
LIMITING
POWER
(W)
50
RC02
RC12
RC22
200
150
50
0.25
G-types
100
H-types
155
0.125
0.063
0
− 55
0
50
70
125
o
T
( C)
Note
amb
1. This is the maximum voltage that
may be continuously applied to
the resistor element, see
Fig.1 Maximum dissipation (Pmax) in percentage of rated power
as a function of the ambient temperature (Tamb).
“IEC publication 115-8”.
PULSE LOADING CAPABILITIES
MBD641
4
10
V
max
(V)
1.2/50 µs
10/700 µs
3
10
2
10
10
10
2
3
4
5
6
7
10
10
10
10
10
10
R
(Ω)
n
These pulses may not be applied on a regular basis.
Fig.2 Maximum permissible peak pulse voltage without failing to ‘open circuit’
in accordance with DIN IEC 40 (CO) 533 for type: RC02.
1996 Nov 18
3
Philips Components
Product specification
Precision chip resistors
sizes 1206, 0805 and 0603
RC02/12/22
MBD587
4
10
V
max
(V)
1.2/50 µs
3
10
10/700 µs
2
10
10
10
2
3
4
5
6
7
10
10
10
10
10
10
R
n
(Ω)
These pulses may not be applied on a regular basis.
Fig.3 Maximum permissible peak pulse voltage without failing to ‘open circuit’
in accordance with DIN IEC 40 (CO) 533 for type: RC12.
MBD590
4
10
V
max
(V)
3
10
1.2/50 µs
10/700 µs
2
10
10
10
2
3
4
5
6
7
10
10
10
10
10
10
R
(Ω)
n
These pulses may not be applied on a regular basis.
Fig.4 Maximum permissible peak pulse voltage without failing to ‘open circuit’
in accordance with DIN IEC 40 (CO) 533 for type: RC22.
1996 Nov 18
4
Philips Components
Product specification
Precision chip resistors
sizes 1206, 0805 and 0603
RC02/12/22
MBD585
3
10
P
max
(W)
2
10
single pulse
10
t
/t =1000
i
p
1
1
10
6
5
4
3
2
1
10
10
10
10
10
10
1
t
(s)
i
ˆ
Fig.5 Pulse on a regular basis for type: RC02; maximum permissible peak pulse power (Pmax) as a
function of pulse duration for R ≤ 10 kΩ, single pulse and repetitive pulse tp/ti = 1000.
MBD586
600
V
max
(V)
400
200
0
10
6
5
4
3
2
1
10
10
10
10
10
1
t
(s)
i
ˆ
Fig.6 Pulse on a regular basis for type: RC02; maximum permissible peak pulse voltage (Vmax) as a
function of pulse duration.
1996 Nov 18
5
Philips Components
Product specification
Precision chip resistors
sizes 1206, 0805 and 0603
RC02/12/22
MBD588
3
10
P
max
(W)
2
10
single pulse
10
t
/t =1000
i
p
1
1
10
6
5
4
3
2
1
10
10
10
10
10
10
1
t
(s)
i
ˆ
Fig.7 Pulse on a regular basis for type: RC12; maximum permissible peak pulse power (Pmax) as a
function of pulse duration for R ≤ 10 kΩ, single pulse and repetitive pulse tp/ti = 1000.
MLB722
600
V
max
(V)
400
200
0
10
6
5
4
3
2
1
10
10
10
10
10
1
t
(s)
i
ˆ
Fig.8 Pulse on a regular basis for type: RC12; maximum permissible peak pulse voltage (Vmax) as a
function of pulse duration.
1996 Nov 18
6
Philips Components
Product specification
Precision chip resistors
sizes 1206, 0805 and 0603
RC02/12/22
MBD591
2
10
P
max
(W)
10
single pulse
t
/t =1000
i
p
1
1
10
10
2
6
5
4
3
2
1
10
10
10
10
10
10
1
t
(s)
i
ˆ
Fig.9 Pulse on a regular basis for type: RC22; maximum permissible peak pulse power (Pmax) as a
function of pulse duration for R ≤ 10 kΩ, single pulse and repetitive pulse tp/ti = 1000.
MBD592
300
V
max
(V)
200
100
0
10
6
5
4
3
2
1
10
10
10
10
10
1
t
(s)
i
ˆ
Fig.10 Pulse on a regular basis for type: RC22; maximum permissible peak pulse voltage (Vmax) as a
function of pulse duration.
1996 Nov 18
7
Philips Components
Product specification
Precision chip resistors
sizes 1206, 0805 and 0603
RC02/12/22
MECHANICAL DATA
Mass per 100 units
Outlines
protective coat
resistor layer
handbook, 4 columns
MASS
(g)
TYPE
inner electrode
RC02
RC12
RC22
1.0
T
end termination
0.55
0.25
ceramic substrate
t
b
protective coat
marking
t
t
Marking
All resistors except RC22 are marked
with a four digit code on the protective
coat to designate the nominal
resistance value.
W
220R
4-DIGIT MARKING
MBE929
For values up to 976 Ω the R is used
as a decimal point. For values of 1 kΩ
or greater the first 3 digits apply to the
resistance value and the fourth
indicates the number of zeros to
follow.
L
For dimensions see Table 3.
Fig.11 Outlines.
Example
Table 3 Chip resistor types and relevant physical dimensions; see Fig.11
MARKING
121R
RESISTANCE
121 Ω
L
W
(mm)
T
tt
tb
(mm)
TYPE
(mm)
(mm)
(mm)
3.20
+0.10/−0.20
4021
1503
4.02 kΩ
RC02
RC12
RC22
1.60 ±0.15 0.55 ±0.10 0.45 ±0.25 0.50 ±0.25
150 kΩ
2.00 ±0.15 1.25 ±0.15 0.55 ±0.10 0.40 ±0.20 0.40 ±0.20
0.80
PACKAGE MARKING
1.60 ±0.10
0.45 ±0.10 0.30 ±0.20 0.30 ±0.20
+0.15/−0.05
The packaging of all resistors
including RC22 is also marked and
includes resistance value, tolerance,
TC value, catalogue number,
quantity, production period, batch
number and source code.
1996 Nov 18
8
Unless otherwise specified the following values apply:
Temperature: 15 °C to 35 °C
TESTS AND REQUIREMENTS
Essentially all tests are carried out in accordance with the schedule of
“IEC publication 115-8”, category LCT/UCT/56 (rated temperature range:
Lower Category Temperature, Upper Category Temperature; damp heat,
long term, 56 days). The testing also covers the requirements specified by
EIA and EIAJ.
Relative humidity: 45% to 75%
Air pressure: 86 kPa to 106 kPa (860 mbar to 1060 mbar).
In Table 4 the tests and requirements are listed with reference to the
relevant clauses of “IEC publications 115-8 and 68”; a short description of
the test procedure is also given. In some instances deviations from the
IEC recommendations were necessary for our method of specifying.
The tests are carried out in accordance with IEC publication 68,
“Recommended basic climatic and mechanical robustness testing
procedure for electronic components” and under standard atmospheric
conditions according to “IEC 68-1”, subclause 5.3.
All soldering tests are performed with mildly activated flux.
Table 4 Test procedures and requirements
IEC
115-8
CLAUSE METHOD
IEC 68-2
TEST
REQUIREMENTS
RESISTANCE
TEST
PROCEDURE
RANGE
RC02H RC02G RC12H RC12G
RC22H
Tests in accordance with the schedule of IEC publication 115-8
4.4.1
4.4.2
visual
examination
no holes; clean surface; no damage
dimensions
(outline;
see Fig.11)
gauge (mm)
0.45 ≤ T ≤ 0.65
0.45 ≤ T ≤ 0.65
0.35 ≤ T ≤ 0.55
1.45 ≤ W ≤ 1.75
3.0 ≤ L ≤ 3.3
1.10 ≤ W ≤ 1.40 0.75 ≤ W ≤ 0.95
1.85 ≤ L ≤ 2.15
1.50 ≤ L ≤ 1.70
4.5
resistance
applied voltage (+0/−10%):
R < 10 Ω: 0.1 V
R − Rnom: max. ±1%
10 Ω ≤ R < 100 Ω: 0.3 V
100 Ω ≤ R < 1 kΩ: 1 V
1 kΩ ≤ R < 10 kΩ: 3 V
10 kΩ ≤ R < 100 kΩ: 10 V
100 kΩ ≤ R < 1 MΩ: 25 V
R ≥ 1 MΩ: 50 V
4.18
4.29
20 (Ta)
45 (Xa)
resistance to
soldering heat 10 s; 260 ±5 °C
unmounted chips;
no visual damage
∆R/R max.: ±0.5% +0.05 Ω
component
solvent
resistance
isopropyl alcohol or H2O followed
by brushing in accordance with
“MIL 202 F”
no visual damage
IEC
115-8
CLAUSE METHOD
IEC 68-2
TEST
REQUIREMENTS
RESISTANCE
RANGE
TEST
PROCEDURE
RC02H RC02G RC12H RC12G
RC22H
4.17
20 (Ta)
solderability
unmounted chips completely
immersed for 2 ±0.5 s in a solder
bath at 235 ±5 °C
good tinning (≥95% covered); no visual damage
4.7
voltage proof
on insulation
maximum voltage (RMS) during
1 minute, metal block method
no breakdown or flashover
4.13
4.33
short time
overload
room temperature; P = 6.25 × Pn;
∆R/R max.: ±1% +0.05 Ω
5 s (V ≤ 2 × Vmax
)
bending
resistors mounted on a 90 mm
glass epoxy resin PCB (FR4),
bending:
no visual damage
∆R/R max.: ±0.5% +0.05 Ω
3 mm for RC02H and RC02G;
5 mm for RC12H, RC12G and
RC22H
4.19
14 (Na)
rapid change
30 minutes at LCT and
no visual damage
of temperature 30 minutes at UCT; 5 cycles
∆R/R max.: ±0.5% +0.05 Ω
4.23
climatic
sequence:
4.23.3
30 (D)
30 (D)
damp heat
(accelerated)
1st cycle
4.23.6
damp heat
(accelerated)
remaining
cycles
6 days; 55 °C; 95 to 98% RH
Rins min.: 104 MΩ
R ≤ 1 MΩ
R > 1 MΩ
∆R/R max.: ±1.0% +0.05 Ω
∆R/R max.: ±1.5% +0.05 Ω
4.24.2
4.25.1
4.23.2
3 (Ca)
damp heat
(steady state)
(IEC)
56 days; 40 °C; 90 to 95% RH;
loaded with 0.01 Pn
(IEC steps: 4 to 100 V)
R ≤ 1 MΩ
R > 1 MΩ
∆R/R max.: ±1.0% +0.05 Ω
∆R/R max.: ±1.5% +0.05 Ω
endurance
(at 70 °C)
1000 hours;
loaded with Pn or Vmax;
1.5 hours on and 0.5 hours off
R ≤ 1 MΩ
R > 1 MΩ
∆R/R max.: ±1.0% +0.05 Ω
∆R/R max.: ±1.5% +0.05 Ω
27 (Ba)
endurance at
upper category
temperature
1000 hours; no load
R ≤ 1 MΩ
R > 1 MΩ
∆R/R max.: ±1.0% +0.05 Ω
∆R/R max.: ±1.5% +0.05 Ω
IEC
115-8
CLAUSE METHOD
IEC 68-2
TEST
REQUIREMENTS
RESISTANCE
RANGE
TEST
PROCEDURE
RC02H RC02G RC12H RC12G
RC22H
4.8.4.2
temperature
coefficient
at 25/LCT/25 °C and
25/UCT/25 °C (TC × 10−6/K)
R < 5 Ω
≤ ±250
≤ ±200
≤ ±100
−
−
−
≤ ±250
≤ ±200
≤ ±100
≤ ±100
≤ ±200
−
≤ ±250
≤ ±200
≤ ±100
≤ ±100
≤ ±200
R < 10 Ω
R < 100 Ω
R ≤ 1 MΩ
R ≤ 10 MΩ
−
−
≤ ±100 ≤ ±50
≤ ±200
≤ ±50
−
−
Other tests in accordance with IEC 115 clauses and IEC 68 test method
4.17
20 (Tb)
solderability
(after ageing)
8 hours steam or 16 hours
155 °C; unmounted chips
completely immersed for 2 ±0.5 s
in a solder bath at 235 ±5 °C
good tinning (≥95% covered); no damage
Rins min.: 103 MΩ
4.6.1.1
insulation
resistance
voltage (DC) after 1 minute,
metal block method:
100 V for RC02H, RC02G,
RC12H and RC12G,
50 V for RC22H
4.12
noise
IEC publication 195
(measured with
Quantech - equipment)
R ≤ 1 kΩ
max. 1 µV/V
max. 3 µV/V
max. 6 µV/V
max. 10 µV/V
R ≤ 10 kΩ
R ≤ 100 kΩ
R ≤ 1 MΩ
Other applicable tests
humidity load
(steady state)
(JIS)
1000 hours; +40 °C;
90 to 95% RH;
loaded with Pn or Vmax
R ≤ 1 MΩ
R > 1 MΩ
∆R/R max.: ±2% +0.1 Ω
∆R/R max.: ±3% +0.1 Ω
;
1.5 hours on and 0.5 hours off
leaching
unmounted chips 60 s; 260 ±5 °C
good tinning; no leaching
∆R/R max.: ±2% +0.1 Ω
∆R/R max.: ±3% +0.1 Ω
trio damp heat 1000 hours; +85 °C; 85% RH;
test loaded with 0.1 Pn or Vmax
R ≤ 1 MΩ
R > 1 MΩ
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