ETC MCHP03W8F6803T5E

High Power Resistors
HP03 Series
Construction
1. High purity alumina substrate
2. Protective covering
3. Resistive covering
4. Termination inner (Ag / Pd)
5. Termination (between) Ni plating
6. Termination (outer) Sn plating
Power Rating and Dimensions
Dimensions : Millimetres
Dimensions
Type
L
HP03
1.6 ±0.1
W
0.8 +0.15
-0.1
H
L1
L2
0.45 ±0.1
0.3 ±0.2
0.3 ±0.2
Dimensions : Millimetres
Power Rating
Type
Power Rating
at 70°C
(W)
Tolerance
%
Resistance Range
Ω)
(Ω
Standard Series
HP03
0.125
±1
1 to 10 M
E-96
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Page <1>
25/04/12 V1.1
High Power Resistors
HP06 Series
Power Rating
Resistors shall have a power rating based on continuous load operation at an ambient temperature of 70°C. For temperature in
excess of 70°C, the load shall be derated
Voltage Rating
Resistors shall have a rated direct-current (DC) continuous working voltage or an approximate sine-wave root-mean-square (RMS)
alternating-current (AC) continuous working voltage at commercial line frequency and waveform corresponding to the power rating, as
determined from the following formula :
RCWV = √P x R
Where : RCWV = Rated DC or RMS AC continuous working voltage at commercial-line frequency and waveform (volt)
P = Power rating (watt)
R = Nominal resistance (Ω)
In no case shall the rated DC or RMS AC continuous working voltage be greater than the applicable maximum value
Specification Table
Type
Power
Rating
(W)
Maximum
Working
Voltage (V)
Maximum
Overload Voltage
(V)
Dielectric
Withstanding
Voltage (V)
Temperature
Range
(°C)
Ambient
Temperature
(°C)
HP03
0.125
50
100
300
-55 to +155
70
Marking
A. Multiplier Code for Marking Reference
Code
A
B
C
D
E
F
G
H
X
Y
Z
Multiplier
100
101
102
103
104
105
106
107
10-1
10-2
10-3
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Page <2>
25/04/12 V1.1
High Power Resistors
HP06 Series
Coding
Formula
XX
X
Resistance Code
Multiplier Code
Value
Code
Value
Code
Value
Code
Value
Code
Value
Code
100
01
162
21
261
41
422
61
681
81
102
02
165
22
267
42
432
62
698
82
105
03
169
23
274
43
442
63
715
83
107
04
174
24
280
44
453
64
732
84
110
05
178
25
287
45
464
65
750
85
113
06
182
26
294
46
475
66
768
86
115
07
187
27
301
47
487
67
787
87
118
08
191
28
309
48
499
68
806
88
121
09
196
29
316
49
511
69
825
89
124
10
200
30
324
50
523
70
845
90
127
11
205
31
332
51
536
71
866
91
130
12
210
32
340
52
549
72
887
92
133
13
215
33
348
53
562
73
909
93
137
14
221
34
357
54
576
74
931
94
140
15
226
35
365
55
590
75
953
95
143
16
232
36
374
56
604
76
976
96
147
17
237
37
383
57
619
77
-
-
150
18
243
38
392
58
634
78
-
-
154
19
249
39
402
59
649
79
-
-
158
20
255
40
412
60
665
80
-
-
*Marking for 0603 E-96 series, the resistance value that no have multiplier code indicate marking follow this:
B. The first two digits are significant figures of resistance and the third one denoted number of zeros and under line the marking
letters
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Page <3>
25/04/12 V1.1
High Power Resistors
HP06 Series
Performance specification
Characteristics
Limits
Test Methods (JIS C 5201-1)
Natural resistance change per temperature degree
centigrade R2-R1 / R1 (t2-t1) × 106 (PPm / °C)
Temperature Coefficient
R1 : Resistance value at room temperature (t1)
R2 : Resistance value at room temperature plus
100°C (t2)
≤10 E : ±200 PPM / °C
>10 E : ±100 PPM / °C
Test pattern
: Room temperature (t1),
Room temperature +100°C (t2)
Short Time Overload
Resistance change rate is
±5% (2% + 0.1 Ω) maximum
±1% (1% + 0.1 Ω) maximum
Permanent resistance change after the application of a
potential of 2.5 times RCWV for 5 seconds
Terminal Bending
± (1% + 0.05 Ω) maximum
Twist of Test Board : Y/X = 3/90 mm for 60 seconds
Dielectric Withstanding
Voltage
No evidence of flashover mechanical
damage, arcing or insulation break
down
Clamped in the trough of a 90°C metallic V-block and
shall be tested at AC potential respectively specified in
the type for 60 to 70 seconds
Solderability
Minimum 95% coverage
Test temperature of solder : 245 ±3°C; dipping time in
Solder
: 2 to 3 seconds
Soldering Heat
Resistance change rate is
±(1% + 0.05 Ω) maximum
Dip the resistor into a solder bath having a temperature
of 260°C ±3°C and hold It for 10 ±1 seconds
Resistance change after continuous 5 cycles for duty
cycle specified below:
Step
1
2
3
4
Temperature
-55°C ±3°C
Room temperature
+155°C ±2°C
Room temperature
Time
30 minutes
10 to 15 minutes
30 minutes
10 to 15 minutes
Temperature Cycling
±5% (1% + 0.05 Ω) maximum
±1% (0.5% + 0.05 Ω) maximum
Load Life in Humidity
Resistance change rate is
±5% (3% + 0.1 Ω) maximum
±1% (1% + 0.1 Ω) maximum
Resistance change after 1,000 hours (1.5 hours "on",
0.5 hour "off") at RCWV in a humidity chamber
controlled at 40°C ±2°C and 90 to 95% relative humidity
Load Life
Resistance change rate is
±5% (3% + 0.1 Ω) maximum
±1% (1% + 0.1 Ω) maximum
Permanent resistance change after 1,000 hours
operating at RCWV with duty cycle of (1.5 hours "on",
0.5 hour "off") at 70°C ±2°C ambient
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Page <4>
25/04/12 V1.1
High Power Resistors
HP06 Series
Resistance Preferred Value Range
E6 E12
10
10
E24
10
11
12
12
13
15
15
15
16
18
18
20
E96
10
10.2
10.5
10.7
11
11.3
11.5
11.8
12.1
12.4
12.7
13
13.3
13.7
14
14.3
14.7
15
15.4
15.8
16.2
16.5
16.9
17.4
17.8
18.2
18.7
19.1
19.6
20
20.5
21
E6
E12
22
22
E24
22
24
27
27
30
33
33
33
36
39
39
43
E96
21.5
22.1
22.6
23.2
23.7
24.3
24.9
25.5
26.1
27.7
27.4
28
28.7
29.4
30.1
30.9
31.6
32.4
33.2
34
34.8
35.7
36.5
37.4
38.3
39.2
40.2
41.2
42.2
43.2
44.2
45.3
E6
E12
47
47
E24
47
51
56
56
62
68
68
68
75
82
82
91
E96
46.4
47.5
48.7
49.9
51.1
52.3
53.6
54.9
56.2
57.6
12.7
59
60.4
61.9
63.4
64.9
66.5
68.1
69.8
71.5
75
76.8
78.7
80.6
82.5
84.5
86.6
88.7
90.9
93.1
95.3
97.6
Above values in accordance with IEC Publication 63 (1963) and BS2488
Stocked Values
Tolerance
Wattage (W)
Preferred Value
Range
Range Value
1%
0.063
E96
1R5 - 1M
1%
0.1
E24
1R5 - 1M
1%
0.125
E24
10R - 1M
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Page <4>
25/04/12 V1.1
High Power Resistors
HP06 Series
Part Number Table
Description
Part Number
Description
Part Number
Resistor, 10R, 0603 1% 0.125 W
MCHP03W8F100JT5E
Resistor, 12K, 0603 1% 0.125 W
MCHP03W8F1202T5E
Resistor, 12R, 0603 1% 0.125 W
MCHP03W8F120JT5E
Resistor, 15K, 0603 1% 0.125 W
MCHP03W8F1502T5E
Resistor, 15R, 0603 1% 0.125 W
MCHP03W8F150JT5E
Resistor, 18K, 0603 1% 0.125 W
MCHP03W8F1802T5E
Resistor, 18R, 0603 1% 0.125 W
MCHP03W8F180JT5E
Resistor, 22K, 0603 1% 0.125 W
MCHP03W8F2202T5E
Resistor, 22R, 0603 1% 0.125 W
MCHP03W8F220JT5E
Resistor, 27K, 0603 1% 0.125 W
MCHP03W8F2702T5E
Resistor, 27R, 0603 1% 0.125 W
MCHP03W8F270JT5E
Resistor, 33K, 0603 1% 0.125 W
MCHP03W8F3302T5E
Resistor, 33R, 0603 1% 0.125 W
MCHP03W8F330JT5E
Resistor, 39K, 0603 1% 0.125 W
MCHP03W8F3902T5E
Resistor, 39R, 0603 1% 0.125 W
MCHP03W8F390JT5E
Resistor, 47K, 0603 1% 0.125 W
MCHP03W8F4702T5E
Resistor, 47R, 0603 1% 0.125 W
MCHP03W8F470JT5E
Resistor, 56K, 0603 1% 0.125 W
MCHP03W8F5602T5E
Resistor, 56R, 0603 1% 0.125 W
MCHP03W8F560JT5E
Resistor, 68K, 0603 1% 0.125 W
MCHP03W8F6802T5E
Resistor, 68R, 0603 1% 0.125 W
MCHP03W8F680JT5E
Resistor, 82K, 0603 1% 0.125 W
MCHP03W8F8202T5E
Resistor, 82R, 0603 1% 0.125 W
MCHP03W8F820JT5E
Resistor, 100K, 0603 1% 0.125 W
MCHP03W8F1003T5E
Resistor, 100R, 0603 1% 0.125 W
MCHP03W8F1000T5E
Resistor, 120K, 0603 1% 0.125 W
MCHP03W8F1203T5E
Resistor, 120R, 0603 1% 0.125 W
MCHP03W8F1200T5E
Resistor, 150K, 0603 1% 0.125 W
MCHP03W8F1503T5E
Resistor, 150R, 0603 1% 0.125 W
MCHP03W8F1500T5E
Resistor, 180K, 0603 1% 0.125 W
MCHP03W8F1803T5E
Resistor, 180R, 0603 1% 0.125 W
MCHP03W8F1800T5E
Resistor, 220K, 0603 1% 0.125 W
MCHP03W8F2203T5E
Resistor, 220R, 0603 1% 0.125 W
MCHP03W8F2200T5E
Resistor, 270K, 0603 1% 0.125 W
MCHP03W8F2703T5E
Resistor, 270R, 0603 1% 0.125 W
MCHP03W8F2700T5E
Resistor, 330K, 0603 1% 0.125 W
MCHP03W8F3303T5E
Resistor, 330R, 0603 1% 0.125 W
MCHP03W8F3300T5E
Resistor, 390K, 0603 1% 0.125 W
MCHP03W8F3903T5E
Resistor, 390R, 0603 1% 0.125 W
MCHP03W8F3900T5E
Resistor, 470K, 0603 1% 0.125 W
MCHP03W8F4703T5E
Resistor, 470R, 0603 1% 0.125 W
MCHP03W8F4700T5E
Resistor, 560K, 0603 1% 0.125 W
MCHP03W8F5603T5E
Resistor, 560R, 0603 1% 0.125 W
MCHP03W8F5600T5E
Resistor, 680K, 0603 1% 0.125 W
MCHP03W8F6803T5E
Resistor, 680R, 0603 1% 0.125 W
MCHP03W8F6800T5E
Resistor, 820K, 0603 1% 0.125 W
MCHP03W8F8203T5E
Resistor, 820R, 0603 1% 0.125 W
MCHP03W8F8200T5E
Resistor, 1M, 0603 1% 0.125 W
MCHP03W8F1004T5E
Resistor, 1K, 0603 1% 0.125 W
MCHP03W8F1001T5E
Resistor, 1M2, 0603 1% 0.125 W
MCHP03W8F1204T5E
Resistor, 1K2, 0603 1% 0.125 W
MCHP03W8F1201T5E
Resistor, 1M5, 0603 1% 0.125 W
MCHP03W8F1504T5E
Resistor, 1K5, 0603 1% 0.125 W
MCHP03W8F1501T5E
Resistor, 1M8, 0603 1% 0.125 W
MCHP03W8F1804T5E
Resistor, 1K8, 0603 1% 0.125 W
MCHP03W8F1801T5E
Resistor, 2M2, 0603 1% 0.125 W
MCHP03W8F2204T5E
Resistor, 2K2, 0603 1% 0.125 W
MCHP03W8F2201T5E
Resistor, 2M7, 0603 1% 0.125 W
MCHP03W8F2704T5E
Resistor, 2K7, 0603 1% 0.125 W
MCHP03W8F2701T5E
Resistor, 3M3, 0603 1% 0.125 W
MCHP03W8F3304T5E
Resistor, 3K3, 0603 1% 0.125 W
MCHP03W8F3301T5E
Resistor, 3M9, 0603 1% 0.125 W
MCHP03W8F3904T5E
Resistor, 3K9, 0603 1% 0.125 W
MCHP03W8F3901T5E
Resistor, 4M7, 0603 1% 0.125 W
MCHP03W8F4704T5E
Resistor, 4K7, 0603 1% 0.125 W
MCHP03W8F4701T5E
Resistor, 5M6, 0603 1% 0.125 W
MCHP03W8F5604T5E
Resistor, 5K6, 0603 1% 0.125 W
MCHP03W8F5601T5E
Resistor, 6M8, 0603 1% 0.125 W
MCHP03W8F6804T5E
Resistor, 6K8, 0603 1% 0.125 W
MCHP03W8F6801T5E
Resistor, 8M2, 0603 1% 0.125 W
MCHP03W8F8204T5E
Resistor, 8K2, 0603 1% 0.125 W
MCHP03W8F8201T5E
Resistor, 10M, 0603 1% 0.125 W
MCHP03W8F1005T5E
Resistor, 10K, 0603 1% 0.125 W
MCHP03W8F1002T5E
Important Notice : This data sheet and its contents (the "Information") belong to the members of the Premier Farnell group of companies (the "Group") or are licensed to it. No licence is granted for the use of
it other than for information purposes in connection with the products to which it relates. No licence of any intellectual property rights is granted. The Information is subject to change without notice and replaces
all data sheets previously supplied. The Information supplied is believed to be accurate but the Group assumes no responsibility for its accuracy or completeness, any error in or omission from it or for any use
made of it. Users of this data sheet should check for themselves the Information and the suitability of the products for their purpose and not make any assumptions based on information included or omitted.
Liability for loss or damage resulting from any reliance on the Information or use of it (including liability resulting from negligence or where the Group was aware of the possibility of such loss or damage arising)
is excluded. This will not operate to limit or restrict the Group's liability for death or personal injury resulting from its negligence. Multicomp is the registered trademark of the Group. © Premier Farnell plc 2012.
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25/04/12 V1.1