ROHM MNR12E0APF Technical data

Compact Chip Resistor Networks

MNR12 (06032 size)

Features

1) Convex electrodes
Easy to check the fillet after soldering is finished.

2) Small, light, rectangular 2-chip network
Area ratio is 65% smaller than that of MNR32, while weight ratio has been cut 75%.

3) High-density mounting
Can be mounted even more densely than two 0603 chips (MCR03), and mounting costs are lower.

4) Compatible with a wide range of mounting equipment.
Squared corners make it excellent for mounting using image recognition devices.

5) ROHM resistors have approved ISO9001- / ISO/TS 16949- certification.
Design and specifications are subject to change without notice. Carefully check the specification sheet supplied with the
product before using or ordering it.

Ratings

Item Conditions Specifications

Rated power

Power must be derated according to the power derating curve in
Figure 1 when ambient temperature exceeds 70°C.

100

80

60

40

POWER LOAD (%)

20

0

−55 0 70 100 125

AMBIENT TEMPERATURE (°C)

Fig.1

0.063W (1 / 16W)

at 70°C

Rated voltage

Nominal resistance See Table 1.

Operating temperature

The voltage rating is calculated by the following equation.
If the value obtained exceeds the limiting element voltage,
the voltage rating is equal to the maximum operating voltage.

E= P×R

E: Rated voltage (V)

P: Rated power (W)

R: Nominal resistance (Ω)

Limiting element voltage 50V

−55°C to +155°C

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2011.11 - Rev.I

MNR12

Table 1

Jumper type

Resistance

Rated current

Operating temperature

Max. 50mΩ

1A

−55°C to +155°C

Resistance tolerance

J (±5%) 10 to 1M (E24) ±200

Resistance range

(Ω)

Resistance temperature coefficient

(ppm / °C)

F (±1%) 10 to 1M (E24) ±100

Before using components in circuits where they will be exposed to transients such as pulse loads (short-duration, high-level loads), be certain to evaluate the
component in the mounted state. In addition, the reliability and performance of this component cannot be guaranteed if it is used with a steady state voltage that
is greater than its rated voltage.

Characteristics

Item Test conditions (JIS C 5201-1)

Resistance

Variation of resistance 
with temperature

Overload

Resistor type

J : ±5%
F : ±1%

± (2.0%+0.1Ω) Max. 50mΩ

Guaranteed value

Max. 50mΩ JIS C 5201-1 4.5

See Table.1

Jumper type

JIS C 5201-1 4.8
Measurement : −55 / +25 / +125°C

JIS C 5201-1 4.13
Rated voltage (current) ×2.5, 2s.
Maximum Overload Voltage : 100V

Data Sheet

Solderability

Resistance to 
soldering heat

Rapid change of 
temperature

Damp heat, steady state

Endurance at 70°C

Endurance

Resistance to solvent

Bend strength of 
the end face plating

Dimensions (Unit : mm)

A new uniform coating of minimum of
95% of the surface being immersed
and no soldering damage.

± (1.0%+0.05Ω)

Max. 50mΩ

No remarkable abnormality on the appearance.

± (1.0%+0.05Ω)

± (3.0%+0.1Ω)

± (3.0%+0.1Ω)

± (3.0%+0.1Ω)

± (1.0%+0.05Ω)

± (1.0%+0.05Ω)

Max. 50mΩ

Max. 50mΩ

Max. 50mΩ

Max. 50mΩ

Max. 50mΩ

Max. 50mΩ

Without mechanical damage such as breaks.

JIS C 5201-1 4.17
Rosin·Ethanol (25%WT)

°C

Soldering condition : 235±5



Duration of immersion : 2.0±0.5s.

JIS C 5201-1 4.18

°C

Soldering condition : 260±5



Duration of immersion : 10±1s.

JIS C 5201-1 4.19

°C to

Test temp. : −55

+125°C 5cyc

JIS C 5201-1 4.24

°C, 93%RH

40



Test time : 1,000h to 1,048h

JIS C 5201-1 4.25.1
Rated voltage (current), 70

°C



1.5h : ON − 0.5h : OFF
Test time : 1,000h to 1,048h

JIS C 5201-1 4.25.3

°C



125
Test time : 1,000h to 1,048h

JIS C 5201-1 4.29

°C

, Immersion cleaning, 5±0.5min.

23±5
Solvent : 2-propanol

JIS C 5201-1 4.33

0.6±0.15

0.3±0.2

103

1.6±0.1

0.8

1.6±0.1

0.4±0.15

0.6±0.15

No.Material

0.6±0.15

1

6

Cross section A-A'

Resistive element

1

(Oxide metal thick film)

0.3±0.2

5
2

Silver thick film electrode

1

6

0.2

0.15

Cross section B-B'

±

0.1

±

3

Nickel electrode

±

103

0.3

1.6

0.25

4

Sn electrode

5

Alumina substrate

0.3±0.2

5

6

Overcoating (Resin)

234

0.8

1.6±0.1

0.4±0.15

∗

Making may change to the one-character type.

∗∗

0.6±0.15

Pitch of the upper electrode.

0.1

±

0.5

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0.3±0.2

0.3±0.2

0.5±0.1

Cross section A-A'

Cross section B-B'

0.25±0.15

5

2 3 4

6

1

6

No. Material

1

5

Resistive element

1

(Oxide metal thick film)

2

Silver thick film electrode

3

Nickel electrode

4

Sn electrode

5

Alumina substrate

6

Overcoating (Resin)

∗

Making may change to the one-character type.

∗∗

Pitch of the upper electrode.

2011.11 - Rev.I