0ZCN0030FF2C - BEL FUSE - Datasheet.Live

Surface Mount PTC

0ZC

Series

belfuse.com/

circuit

protection

0ZC

Series

–

2016

Chip

RoHS 2 Compliant

Application

All high

density boards

Product Features

2016 Dime

nsion, Surface mountable, Solid

state, Faster time to trip than standard

SMD devices

AEC

Compliant

Meets Bel

automotive qualification*

Largely based on internal AEC

Q test plan

Operating (Hold Current) Range

300mA

Maximum Voltage

60V (per table)

Temperature Range

℃

to 85

℃

Agency Approval

TUV (Std. EN60738

1, Cert. R50102117)

UL Recognized Component

(Std. UL1434, File E305051)

UL Conditions of

Acceptability:

1. These devices have been investigated for use in safety circuits and are suitable

as a limiting device.

2. These devices have been calibrated to limit the current to 8 amps within 5

seconds, per ANSI/NFPA 70, “National Electrical

Code”.

LEAD FREE =

HALOGEN FREE =

Electrical Characteristics (23

℃

)

Part Number

Hold

Current

Trip

Current

Rated

Voltage

Maximum

Current

Typical

Power

Max

Time to Trip

Resistance Tolerance

Agency Approvals

Current

Time

min

max

, A

max

, V

max

, A

, W

Sec

Ohms

0ZCN0030FF2C

0.30

0.60

100

1.4

1.5

3.0

0.500

2.300

0ZCN0055FF2A

0.55

1.10

100

1.4

2.5

5.0

0.200

1.000

0ZCN0075FF2A

0.75

1.50

100

1.4

8.0

0.5

0.130

0.900

0ZCN0110FF2C

1.10

2.20

100

1.4

8.0

0.5

0.100

0.400

0ZCN0110AF2C

1.10

2.20

100

1.4

8.0

0.5

0.100

0.400

0ZCN0150FF2C

1.50

3.00

100

1.4

8.0

0.8

0.070

0.180

0ZCN0200FF2C

2.00

4.20

100

1.4

8.0

3.0

0.048

0.100

Hold Current

maximum current at which the device will not trip in still air at 23

℃

Trip current

minimum current at which the device will always trip in still air at 23

℃

max

Maximum fault current device can withstand without damage at rated voltage (Vmax).

max

Maximum voltage device can withstand without damage a

t its rated current.

Typical power dissipated by device when in tripped state in 23

℃

still air

environment.

min

Minimum device resistance at 23

℃

max

Maximum device resistance at 23

℃

, 1 hour after initial device trip, or after being soldered to PCB in end application.

Spe

cifications subject to change without notice

AEC

Compliant

Type 0ZC

Series

Bel Fuse Inc.

206 Van Vorst

Street

Jersey City, NJ 07302 USA

201.432.0463

Bel.US.CS@belf.com

belfuse.com/circuit

protection

Bel

Fuse, Inc.

Rev. 0ZC

2019

PTC’s

–

Basic Theory of Operation / “Tripped” Resistance Explanation

Fundamentally, a Bel PTC consists of a block of polymeric material containing conductive filler and bonded

between two conductive, planar terminations.

At currents below the device IHOLD

rating, AND at temperatures below 100C, the PTC maintains a

resistance value below its R1 MAX rating.

As the device's temperature approaches 130C, either due to an increase in ambient temperature or a

current exceeding its I TRIP rating, volumetric expans

ion of the filled polymer breaks apart the majority of

conductive pathways across the terminals created by chain contact of adjacent filler particles or device

resistance increases sharply by several orders of magnitude.

At the much higher “Tripped” resis

tance, there is just enough leakage current to allow internal heating to

“hold” the device in its tripped state (around 125C) until power is interrupted. Once power is removed, the

PTC's core cools and contracts allowing conductive chains to reform and ret

urn the device to its low

resistance state.

The catalog data for each device specifies a "Typical Power" value. This is the power required to exactly

match the heat lost by the tripped device to its ambient surroundings at 23C. By Ohm's Law, power can be

stated as: W = E^2/R. Thus the approximate resistance of a “Tripped” PTC can be determined by: R =

E^2/W, where "E" is the voltage appearing across the PTC (usually the supply's open circuit voltage), and

"W" is the Typical Power value for the particular P

TC.

Since the PPTC acts to maintain a constant internal temperature, its apparent resistance will change based

upon applied voltage and, to a lesser degree, ambient conditions. Consider the following example....

A PTC with a Typical Power of 1 watt protec

ting a circuit using a 60V supply will demonstrate an apparent,

tripped resistance "R" of:

R = 60^2/1 = 3,600 ohms

This same tripped device when used to protect a 12V circuit would now present an apparent resistance of:

R = 12^2/1 = 144 ohms

The valu

e for Typical Power is "typical" because any physical factors that affect heat loss (such as ambient

temperature or air convection) will somewhat alter the level of power that the PTC needs to maintain its

internal temperature. In short, PTCs do not exhibi

t a constant, quantifiable tripped resistance value.

Type Time

–

Trip at 23

℃

Spe

cifications subject to change without notice

Type 0ZC

Series

Bel Fuse Inc.

206 Van Vorst

Street

Jersey City, NJ 07302 USA

201.432.0463

Bel.US.CS@belf.com

belfuse.com/circuit

protection

Bel

Fuse, Inc.

Rev. 0ZC

2019

Pad Layout

Termination Pad Materials

The

dimensions in the table below provide the recommended

Matte Tin

–

Plated Copper

pad layout.

Mechanical Dimensions and Marking

All dimensions in

mm.

Thermal Derating Curve

Cautionary Notes

Operation beyond the specified maximum ratings

or improper use may result in damage and

possible ele

ctrical arcing and/or flame.

These Polymer PTC (PPTC) devices are intended

for protection against occasional

overcurrent/overtemperature fault conditions and

may not be suitable for use in applications where

repeated and/or prolonged fault

conditions are

anticipated.

Avoid con

tact of PTC device with chemical

solvent. Prolonged contact may adversely impact

the PTC

performance.

These PTC devices may not be suitable for use in

circuits with a large inductance, as the PTC trip

can generate circuit voltage spikes above the PT

rated

voltage.

These devices are intended for use in DC voltage

applications only. Use in AC voltage applications

should be first discusse

d with Bel Fuse

engineering.

Not recommended for use on potted or conformal

coated PCB’s. Restriction of

free air flow could

affect electrical performance a

nd/or result in

device failure.

onsult Bel Fuse engineering.

7. MSL

: 2a (According to IPC J

Std

020).

Nominal

Inch

3.40

0.133

1.50

0.059

4.60

0.181

Part Number

Dimensions

Marking Code

“b”, IH code

Min

Max

0ZCN0030FF2C

0.40

1.15

0030

0ZCN0055FF2A

0.40

1.70

0055

0ZCN0075FF2A

0.40

1.70

0075

0ZCN0110FF2C

0.30

0.70

0110

0ZCN0110AF2C

0.30

0.70

110

0ZCN0150FF2C

0.25

0.65

0150

0ZCN0200FF2C

0.25

0.65

0200

Spe

cifications subject to change without notice

Type 0ZC

Series

Bel Fuse Inc.

206 Van Vorst

Street

Jersey City, NJ 07302 USA

201.432.0463

Bel.US.CS@belf.com

belfuse.com/circuit

protection

Bel

Fuse, Inc.

Rev. 0ZC

2019

Environmental Specifications

Temperature

cycling

JESD22 Method JA

104

Biased humidity

MIL

STD

202 Method 103

Operational life

MIL

STD

202 Method 108

Resistance to solvents

MIL

STD

202 Method 215

Mechanical shock

MIL

STD

202 Method 213

Vibration

MIL

STD

202 Method 204

Resistance to

soldering heat

MIL

STD

202 Method 210

Thermal shock

MIL

STD

202 Method 107

Solderability

ANSI/J

STD

002

Board flex(SMD)

AEC

Q200

005

Terminal strength

AEC

Q200

006

Solder Reflow and Rework Recommendations

Profile Feature

Free Assembly

Average

Ramp

Up Rate (Tsmax to Tp)

℃

/second max

Preheat :

Temperature Min (Tsmin)

Temperature Max (Tsmax)

Time (tsmin to tsmax)

150

℃

200

℃

180 seconds

Time maintained above:

Temperature(T

)

217

℃

Time (

)

150 seconds

Peak/Classification

Temperature(Tp) :

260

℃

ime within 5

℃

of actual Peak :

Temperature (tp)

40 seconds

Ramp

Down Rate :

℃

/second max.

Time 25

℃

to Peak Temperature :

8 minutes max

Solder Reflow

Due to “

lead free / RoHS

” construction of these PTC devices , the required Temperature and Dwell Time in the “ Soldering ”

zone of the

reflow profile are greater than those used for non

RoHS devices.

1. Recommended reflow methods; IR, vapor phase oven, hot air oven.

2. Not Recom

mended For Wave Solder / Direct Immersion.

3. Recommended paste thickness range

–

0.20

–

0.25mm.

4. Devices are compatible with standard industry cl

eaning solvents and methods.

5. MSL

: 2a (According to IPC J

Std

020).

Caution

If reflow temperature / dwell

times exceed the recommended profile, the electrical performance of the PTC may be affected.

Rework

: MIL

STD

202G Method 210F, Test Condition A.

Standard Packaging

P/N

Explanation and Ordering Information

Part Number

Tape/Reel Qty

0ZCN0030FF2C

2,000

0ZCN0055FF2A

1,000

0ZCN0075FF2A

1,000

0ZCN0110FF2C

Thru

0ZCN0200FF2C

2,000

2000 or 1000 fuses in

7 inches dia. Reel, 8mm wide

tape, 4mm pitch, per EIA

481(equivalent

IEC

286 part 3).

Spe

cifications subject to change without notice