ERT-J Series, Multilayer Datasheet by Panasonic Electronic Components

EDDIDIDDDKDD Panasonic

Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.

Should a safety concern arise regarding this product, please be sure to contact us immediately.

Multilayer NTC Thermistors

TJ0EG103JA

3456789 10 11 12

Common Code

ERT J

Product Code Type Code

NTC

Thermistors

Chip Type (SMD)

Multilayer Type

Size Code

“0201”

“0402”

“0603”

Packaging

Style Code

±1%

±2%

±3%

±5%

Resistance Tolerance

Code

Nominal Resistance

R25 (Ω)

The first two digits

are significant figures

of resistance and the

third one denotes

the number of zeros

following them.

(Example)

B Value Class Code

2701 to 2800

3301 to 3400

3801 to 3900

4001 to 4100

4201 to 4300

4301 to 4400

4401 to 4500

4601 to 4700

VSpecial

Specification

“0201”, “0402”

Pressed Carrier

Taping

Punched Carrier

Taping

(Pitch : 2 mm)

“0603”

Punched Carrier

Taping

(Pitch : 4 mm)

Narrow

Tolerance

Type

Standard

Type

Multilayer NTC Thermistors

Series: ERTJ

Explanation of Part Numbers

Construction

Features

Recommended Applications

● Surface Mount Device (0201, 0402, 0603)

● Highly reliable multilayer / monolithic structure

● Wide temperature operating range (–40 to 125 °C)

● Environmentally-friendly lead-free

● RoHS compliant

● Mobile Phone

· Temperature compensation for crystal oscillator

· Temperature compensation for semiconductor devices

● Personal Computer and Peripheral Device

· Temperature detection for CPU and memory device

· Temperature compensation for ink-viscosity (Inkjet Printer)

● Battery Pack (secondary battery)

· Temperature detection of battery cells

● Liquid Crystal Display

· Temperature compensation of display contrast

· Temperature compensation of display backlighting (CCFL)

No. Name

ASemiconductive Ceramics

BInternal electrode

CTerminal

electrode

Substrate electrode

DIntermediate electrode

EExternal electrode

Dec. 201705

Panasonic

Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.

Should a safety concern arise regarding this product, please be sure to contact us immediately.

Multilayer NTC Thermistors

Ratings

Size code (EIA) Z(0201) 0(0402) 1(0603)

Operating Temperature Range

–40 to 125 °C

Rated Maximum Power Dissipation

✽133 mW 66 mW 100 mW

Dissipation

Factor✽2

Approximately

1 mW/°C

Approximately

2 mW/°C

Approximately

3 mW/°C

✽1 Rated Maximum Power Dissipation : The maximum power that can be continuously applied at the rated ambient temperature.

· The maximum value of power, and rated power is same under the condition of ambient temperature 25 °C or less. If the temperature exceeds

25 °C, rated power depends on the decreased power dissipation curve.

· Please see “Operating Power” for details.

✽2

Dissipation factor : The constant amount power required to raise the temperature of the Thermistor 1 °C through self heat generation under stable temperatures.

· Dissipation factor is the reference value when mounted on a glass epoxy board (1.6 mmT).

● 0201(EIA)

□ : Resistance Tolerance Code

Part Number

Nominal Resistance

at 25 °C

Resistance

Tolerance

B Value

at 25/50(K)

B Value

at 25/85(K)

ERTJZEG103□A 10 kΩ

±1 %(F)

±2 %(G)

(3380 K) 3435 K±1%

ERTJZEP473□ 47 kΩ4050 K±1 % (4100 K)

ERTJZEP683□ 68 kΩ4050 K±1 % (4100 K)

ERTJZER683□ 68 kΩ4250 K±1 % (4300 K)

ERTJZER104□100 kΩ4250 K±1 % (4300 K)

ERTJZET104□100 kΩ4500 K±1 % (4550 K)

ERTJZEV104□100 kΩ4700 K±1 % (4750 K)

● 0402(EIA)

□ : Resistance Tolerance Code

Part Number

Nominal Resistance

at 25 °C

Resistance

Tolerance

B Value

at 25/50(K)

B Value

at 25/85(K)

ERTJ0EG103□A 10 kΩ

±1 %(F)

±2 %(G)

(3380 K) 3435 K±1 %

ERTJ0EP333□ 33 kΩ4050 K±1 % (4100 K)

ERTJ0EP473□ 47 kΩ4050 K±1 % (4100 K)

ERTJ0EP683□ 68 kΩ4050 K±1 % (4100 K)

ERTJ0ER104□100 kΩ4250 K±1 % (4300 K)

ERTJ0ES104□100 kΩ4330 K±1 % (4390 K)

ERTJ0EV104□100 kΩ4700 K±1 % (4750 K)

ERTJ0EV224□220 kΩ4700 K±1 % (4750 K)

● 0603(EIA)

□ : Resistance Tolerance Code

Part Number

Nominal Resistance

at 25 °C

Resistance

Tolerance

B Value

at 25/50(K)

B Value

at 25/85(K)

ERTJ1VG103□A 10 kΩ±1 %(F)

±2 %(G)

(3380 K) 3435 K±1 %

ERTJ1VS104□A100 kΩ(4330 K) 4390 K±1 %

Part Number List of Narrow Tolerance Type

(Resistance Tolerance : ±2 %, ±1 %)

□ : Resistance Tolerance Code

● 0201(EIA)

Part Number

Nominal Resistance

at 25 °C

Resistance

Tolerance

B Value

at 25/50(K)

B Value

at 25/85(K)

ERTJZET202□2.0 kΩ

±3 %(H)

±5 %(J)

4500 K±2 % (4450 K)

ERTJZET302□3.0 kΩ4500 K±2 % (4450 K)

ERTJZET472□4.7 kΩ4500 K±2 % (4450 K)

ERTJZEG103□A10 kΩ(3380 K) 3435 K±1 %

ERTJZEP473□47 kΩ4050 K±2 % (4100 K)

ERTJZEP683□68 kΩ4050 K±2 % (4100 K)

ERTJZER683□68 kΩ4250 K±2 % (4300 K)

ERTJZER104□100 kΩ4250 K±2 % (4300 K)

ERTJZET104□100 kΩ4500 K±2 % (4550 K)

ERTJZEV104□100 kΩ4700 K±2 % (4750 K)

ERTJZET154□150 kΩ4500 K±2 % (4750 K)

ERTJZET224□220 kΩ4500 K±2 % (4750 K)

Part Number List of Standard Type (Resistance Tolerance : ±5 %, ±3 %)

Dec. 201705

Panasonic

Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.

Should a safety concern arise regarding this product, please be sure to contact us immediately.

Multilayer NTC Thermistors

● 0402(EIA)

Part Number

Nominal Resistance

at 25 °C

Resistance

Tolerance

B Value

at 25/50(K)

B Value

at 25/85(K)

ERTJ0EA220□22 Ω

±3 %(H)

±5 %(J)

2750 K±3 % (2700 K)

ERTJ0EA330□33 Ω2750 K±3 % (2700 K)

ERTJ0EA400□40 Ω2750 K±3 % (2700 K)

ERTJ0EA470□47 Ω2750 K±3 % (2700 K)

ERTJ0EA680□68 Ω2800 K±3 % (2750 K)

ERTJ0EA101□100 Ω2800 K±3 % (2750 K)

ERTJ0EA151□150 Ω2800 K±3 % (2750 K)

ERTJ0ET102□1.0 kΩ4500 K±2 % (4450 K)

ERTJ0ET152□1.5 kΩ4500 K±2 % (4450 K)

ERTJ0ET202□2.0 kΩ4500 K±2 % (4450 K)

ERTJ0ET222□2.2 kΩ4500 K±2 % (4450 K)

ERTJ0ET302□3.0 kΩ4500 K±2 % (4450 K)

ERTJ0ER332□3.3 kΩ4250 K±2 % (4300 K)

ERTJ0ET332□3.3 kΩ4500 K±2 % (4450 K)

ERTJ0ET472□4.7 kΩ4500 K±2 % (4450 K)

ERTJ0ER472□4.7 kΩ4250 K±2 % (4300 K)

ERTJ0ER682□6.8 kΩ4250 K±2 % (4300 K)

ERTJ0EG103□A10 kΩ(3380 K) 3435 K±1 %

ERTJ0EM103□10 kΩ3900 K±2 % (3970 K)

ERTJ0ER103□10 kΩ4250 K±2 % (4300 K)

ERTJ0ER153□15 kΩ4250 K±2 % (4300 K)

ERTJ0ER223□22 kΩ4250 K±2 % (4300 K)

ERTJ0EP333□33 kΩ4050 K±2 % (4100 K)

ERTJ0ER333□33 kΩ4250 K±2 % (4300 K)

ERTJ0ET333□33 kΩ4500 K±2 % (4580 K)

ERTJ0EP473□47 kΩ4050 K±2 % (4100 K)

ERTJ0ET473□47 kΩ4500 K±2 % (4550 K)

ERTJ0EV473□47 kΩ4700 K±2 % (4750 K)

ERTJ0EP683□68 kΩ4050 K±2 % (4100 K)

ERTJ0ER683□68 kΩ4250 K±2 % (4300 K)

ERTJ0EV683□68 kΩ4700 K±2 % (4750 K)

ERTJ0EP104□100 kΩ4050 K±2 % (4100 K)

ERTJ0ER104□100 kΩ4250 K±2 % (4300 K)

ERTJ0ES104□100 kΩ4330 K±2 % (4390 K)

ERTJ0ET104□100 kΩ4500 K±2 % (4580 K)

ERTJ0EV104□100 kΩ4700 K±2 % (4750 K)

ERTJ0ET154□150 kΩ4500 K±2 % (4580 K)

ERTJ0EV154□150 kΩ4700 K±2 % (4750 K)

ERTJ0EV224□220 kΩ4700 K±2 % (4750 K)

ERTJ0EV334□330 kΩ4700 K±2 % (4750 K)

ERTJ0EV474□470 kΩ4700 K±2 % (4750 K)

□ : Resistance Tolerance Code

Dec. 201705

Panasonic

Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.

Should a safety concern arise regarding this product, please be sure to contact us immediately.

Multilayer NTC Thermistors

● 0603(EIA)

Part Number

Nominal Resistance

at 25 °C

Resistance

Tolerance

B Value

at 25/50(K)

B Value

at 25/85(K)

ERTJ1VA220□22 Ω

±3 %(H)

±5 %(J)

2750 K±3 % (2700 K)

ERTJ1VA330□33 Ω2750 K±3 % (2700 K)

ERTJ1VA400□40 Ω2800 K±3 % (2750 K)

ERTJ1VA470□47 Ω2800 K±3 % (2750 K)

ERTJ1VA680□68 Ω2800 K±3 % (2750 K)

ERTJ1VA101□100 Ω2800 K±3 % (2750 K)

ERTJ1VT102□1.0 kΩ4500 K±2 % (4450 K)

ERTJ1VT152□1.5 kΩ4500 K±2 % (4450 K)

ERTJ1VT202□2.0 kΩ4500 K±2 % (4450 K)

ERTJ1VT222□2.2 kΩ4500 K±2 % (4450 K)

ERTJ1VT302□3.0 kΩ4500 K±2 % (4450 K)

ERTJ1VT332□3.3 kΩ4500 K±2 % (4450 K)

ERTJ1VR332□3.3 kΩ4250 K±2 % (4300 K)

ERTJ1VR472□4.7 kΩ4250 K±2 % (4300 K)

ERTJ1VT472□4.7 kΩ4500 K±2 % (4450 K)

ERTJ1VR682□6.8 kΩ4250 K±2 % (4300 K)

ERTJ1VG103□A10 kΩ(3380 K) 3435 K±1%

ERTJ1VR103□10 kΩ4250 K±2 % (4300 K)

ERTJ1VR153□15 kΩ4250 K±2 % (4300 K)

ERTJ1VR223□22 kΩ4250 K±2 % (4300 K)

ERTJ1VR333□33 kΩ4250 K±2 % (4300 K)

ERTJ1VP473□47 kΩ4100 K±2 % (4150 K)

ERTJ1VR473□47 kΩ4250 K±2 % (4300 K)

ERTJ1VV473□47 kΩ4700 K±2 % (4750 K)

ERTJ1VR683□68 kΩ4250 K±2 % (4300 K)

ERTJ1VV683□68 kΩ4700 K±2 % (4750 K)

ERTJ1VS104□A100 kΩ(4330 K) 4390 K±1%

ERTJ1VV104□100 kΩ4700 K±2 % (4750 K)

ERTJ1VV154□150 kΩ4700 K±2 % (4750 K)

ERTJ1VT224□220 kΩ4500 K±2 % (4580 K)

□ : Resistance Tolerance Code

Dec. 201705

Panasonic

Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.

Should a safety concern arise regarding this product, please be sure to contact us immediately.

Multilayer NTC Thermistors

● Temperature and Resistance value (the resistance value at 25 °C is set to 1)/ Reference values

ERTJ□□A~

ERTJ□□G~ ERTJ□□M~ ERTJ□□P~ ERTJ□□R~ ERTJ0ES~ ERTJ1VS~ ERTJ□□T~ ERTJ□□T~ ERTJ□□V~

B25/50 2750 K 2800 K (3375 K) 3900 K 4050 K 4250 K 4330 K (4330 K) 4500 K 4500 K 4700 K

B25/85 (2700 K) (2750 K) 3435 K (3970 K) (4100 K) (4300 K) (4390 K) 4390 K (4450 K) (4580 K) (4750 K)

T(°C)

✽1✽2

-40

13.05 13.28 20.52 32.11 33.10 43.10 45.67 45.53 63.30 47.07 59.76

-35

10.21 10.40 15.48 23.29 24.03 30.45 32.08 31.99 42.92 33.31 41.10

-30

8.061 8.214 11.79 17.08 17.63 21.76 22.80 22.74 29.50 23.80 28.61

-25

6.427 6.547 9.069 12.65 13.06 15.73 16.39 16.35 20.53 17.16 20.14

-20

5.168 5.261 7.037 9.465 9.761 11.48 11.91 11.89 14.46 12.49 14.33

-15

4.191 4.261 5.507 7.147 7.362 8.466 8.743 8.727 10.30 9.159 10.31

-10

3.424 3.476 4.344 5.444 5.599 6.300 6.479 6.469 7.407 6.772 7.482

-5

2.819 2.856 3.453 4.181 4.291 4.730 4.845 4.839 5.388 5.046 5.481

2.336 2.362 2.764 3.237 3.312 3.582 3.654 3.650 3.966 3.789 4.050

1.948 1.966 2.227 2.524 2.574 2.734 2.778 2.776 2.953 2.864 3.015

1.635 1.646 1.806 1.981 2.013 2.102 2.128 2.126 2.221 2.179 2.262

1.380 1.386 1.474 1.567 1.584 1.629 1.642 1.641 1.687 1.669 1.710

1.171 1.174 1.211 1.247 1.255 1.272 1.277 1.276 1.293 1.287 1.303

1 1 1 1 1 1 1 1 1 1 1

0.8585 0.8565 0.8309 0.8072 0.8016 0.7921 0.7888 0.7890 0.7799 0.7823 0.7734

0.7407 0.7372 0.6941 0.6556 0.6461 0.6315 0.6263 0.6266 0.6131 0.6158 0.6023

0.6422 0.6376 0.5828 0.5356 0.5235 0.5067 0.5004 0.5007 0.4856 0.4876 0.4721

0.5595 0.5541 0.4916 0.4401 0.4266 0.4090 0.4022 0.4025 0.3874 0.3884 0.3723

0.4899 0.4836 0.4165 0.3635 0.3496 0.3319 0.3251 0.3254 0.3111 0.3111 0.2954

0.4309 0.4238 0.3543 0.3018 0.2881 0.2709 0.2642 0.2645 0.2513 0.2504 0.2356

0.3806 0.3730 0.3027 0.2518 0.2386 0.2222 0.2158 0.2161 0.2042 0.2026 0.1889

0.3376 0.3295 0.2595 0.2111 0.1985 0.1832 0.1772 0.1774 0.1670 0.1648 0.1523

0.3008 0.2922 0.2233 0.1777 0.1659 0.1518 0.1463 0.1465 0.1377 0.1348 0.1236

0.2691 0.2600 0.1929 0.1504 0.1393 0.1264 0.1213 0.1215 0.1144 0.1108 0.1009

0.2417 0.2322 0.1672 0.1278 0.1174 0.1057 0.1011 0.1013 0.09560 0.09162 0.08284

0.2180 0.2081 0.1451 0.1090 0.09937 0.08873 0.08469 0.08486 0.08033 0.07609 0.06834

0.1974 0.1871 0.1261 0.09310 0.08442 0.07468 0.07122 0.07138 0.06782 0.06345 0.05662

0.1793 0.1688 0.1097 0.07980 0.07200 0.06307 0.06014 0.06028 0.05753 0.05314 0.04712

100

0.1636 0.1528 0.09563 0.06871 0.06166 0.05353 0.05099 0.05112 0.04903 0.04472 0.03939

105

0.1498 0.1387 0.08357 0.05947 0.05306 0.04568 0.04340 0.04351 0.04198 0.03784 0.03308

110

0.1377 0.1263 0.07317 0.05170 0.04587 0.03918 0.03708 0.03718 0.03609 0.03218 0.02791

115

0.1270 0.1153 0.06421 0.04512 0.03979 0.03374 0.03179 0.03188 0.03117 0.02748 0.02364

120

0.1175 0.1056 0.05650 0.03951 0.03460 0.02916 0.02734 0.02742 0.02702 0.02352 0.02009

125

0.1091 0.09695 0.04986 0.03470 0.03013 0.02527 0.02359 0.02367 0.02351 0.02017 0.01712

R25=Resistance at 25.0±0.1 °C

R50=Resistance at 50.0±0.1 °C

R85=Resistance at 85.0±0.1 °C

B25/50=kn (R25/R50)

1/298.15–1/323.15 B25/85=kn (R25/R85)

1/298.15–1/358.15

✽1 Apply to products with a B25/50 constant of 4500 K and a resistance value of 25 °C less than 10 kΩ. ✽2 Applied only to ERTJ0ET104□.

✽2 Apply to products with a B25/50 constant of 4500 K and a resistance value of 25 °C of 10 kΩ or more. ✽2 Applied only to ERTJ0ET104□.

Dec. 201705

Panasonic

Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.

Should a safety concern arise regarding this product, please be sure to contact us immediately.

Multilayer NTC Thermistors

1.0

Test Sample

0.5R 0.3/Size:0201

0.5/Size:0402

Board

1.0

Test

Sample Unit : mm

45±2 45±2

Bending

distance

Unit : mm

R340

Item Specifi cation Test Method

Rated Zero-power

Resistance (R25)

Within the specifi ed tolerance.

The value is measured at a power that the infl uence

of self-heat generation can be negligible (0.1mW or

less), at the rated ambient temperature of 25.0±0.1°C.

B Value Shown in each Individual Specifi cation.

✽ Individual Specifi cation shall specify B25/50 or

B25/85.

The Zero-power resistances; R1 and R2, shall be

measured respectively at T1 (deg.C) and T2 (deg.C).

The B value is calculated by the following equation.

BT1/T2=kn (R1)–kn (R2)

1/(T1+273.15)–1/(T2+273.15)

T1T2

B25/50 25.0 ±0.1 °C 50.0 ±0.1 °C

B25/85 25.0 ±0.1 °C 85.0 ±0.1 °C

Adhesion The terminal electrode shall be free from peeling

or signs of peeling.

Applied force :

Size 0201 : 2 N

Size 0402, 0603 : 5 N

Duration : 10 s

Size : 0201, 0402

Size : 0603

Bending Strength There shall be no cracks and other mechanical

damage.

R25 change : within ±5 %

Bending distance : 1 mm

Bending speed : 1 mm/s

Resistance to

Soldering Heat

There shall be no cracks and other mechanical

damage.

Nallow Tol. type Standard type

R25 change : within ±2 % within ±3 %

B Value change : within ±1 % within ±2 %

Soldering bath method

Solder temperature : 270 ±5 °C

Dipping period : 4.0 ±1 s

Preheat condition :

Step Temp (°C) Period (s)

1 80 to 100 120 to 180

2 150 to 200 120 to 180

Solderability More than 95 % of the soldered area of both

terminal electrodes shall be covered with fresh

solder.

Soldering bath method

Solder temperature : 230 ±5 °C

Dipping period : 4 ±1 s

Solder : Sn-3.0Ag-0.5Cu

Specifi cation and Test Method

Dec. 201705

Panasonic

Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.

Should a safety concern arise regarding this product, please be sure to contact us immediately.

Multilayer NTC Thermistors

NTC

Rth

PMIC

ADC

Vcc

Rth

RRL

converter

CPU Interface

GMR Head

NTC

Vcc

Rth R

LCD

NTC

Item Specifi cation Test Method

Temperature

Cycling

Nallow Tol. type Standard type

R25 change : within ±2 % within ±3 %

B Value change : within ±1 % within ±2 %

Conditions of one cycle

Step 1 : –40 °C, 30±3 min

Step 2 : Room temp., 3 min max.

Step 3 : 125 °C, 30±3 min.

Step 4 : Room temp., 3 min max.

Number of cycles: 100 cycles

Humidity Nallow Tol. type Standard type

R25 change : within ±2 % within ±3 %

B Value change : within ±1 % within ±2 %

Temperature : 85 ±2 °C

Relative humidity : 85 ±5 %

Test period : 1000 +48/0 h

Biased Humidity Nallow Tol. type Standard type

R25 change : within ±2 % within ±3 %

B Value change : within ±1 % within ±2 %

Temperature : 85 ±2 °C

Relative humidity : 85 ±5 %

Applied power : 10 mW(D.C.)

Test period : 500 +48/0 h

Low Temperature

Exposure

Nallow Tol. type Standard type

R25 change : within ±2 % within ±3 %

B Value change : within ±1 % within ±2 %

Specimens are soldered on the testing board

shown in Fig.2.

Temperature : –40 ±3 °C

Test period : 1000 +48/0 h

High Temperature

Exposure

Nallow Tol. type Standard type

R25 change : within ±2 % within ±3 %

B Value change : within ±1 % within ±2 %

Specimens are soldered on the testing board

shown in Fig.2.

Temperature : 125 ±3 °C

Test period : 1000 +48/0 h

Specifi cation and Test Method

Writing current control of HDD

Contrast level control of LCD Temperature compensation of TCXO

● Temperature Detection

● Temperature Compensation (Pseudo-linearization) ● Temperature Compensation (RF circuit)

Typical Application

Dec. 201705

Panasonic WMMM \f‘J o o D o m o i HUT mw$u ‘\ HUT # 7 mW$u ‘J Jesmw‘ 4 @ﬂ 1 (mm .0\ ¥ j \ng —

Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.

Should a safety concern arise regarding this product, please be sure to contact us immediately.

Multilayer NTC Thermistors

L1L2

100 min.

Vacant position

Top cover tape

400 min.

160 min.

Vacant position

P1P2P0

fD0

Tape running direction

Chip component

Feeding hole Chip pocket

t2Chip component

Feeding hole Chip pocket

fD0

P1P2P0Tape running direction

t2Chip component

Feeding hole Chip pocket

fD0

Size Code (EIA) L W T L1, L2

Z(0201) 0.60±0.03 0.30±0.03 0.30±0.03 0.15±0.05

0(0402) 1.0±0.1 0.50±0.05 0.50±0.05 0.25±0.15

1(0603) 1.60±0.15 0.8±0.1 0.8±0.1 0.3±0.2

Symbol fA

CDEW

1W2

Dim.

(mm) 180–3

60.0+1. 0

13.0±0.5

21.0±0.8 2.0±0.5

9.0+1. 0

11.4 ±1.0

Taped end

(Unit : mm)

● Pitch 2 mm (Pressed Carrier Taping) : Size 0201

● Pitch 2 mm (Punched Carrier Taping) : Size 0402

● Pitch 4 mm (Punched Carrier Taping) : Size 0603

Symbol

ABWFEP

1P2P0fD0t1t2

Dim.

(mm)

1.0

±0.1 1.8

±0.1 8.0

±0.2 3.50

±0.05

1.75

±0.10 4.0

±0.1 2.00

±0.05

4.0

±0.1

1.5+0.1

1.1

max. 1.4

max.

Symbol

ABWFEP

1P2P0fD0t1t2

Dim.

(mm)

0.62

±0.05

1.12

±0.05

8.0

±0.2 3.50

±0.05

1.75

±0.10 2.00

±0.05

2.00

±0.05

4.0

±0.1

1.5+0.1

0.7

max. 1.0

max.

Symbol

ABWFEP

1P2P0fD0tK

Dim.

(mm)

0.36

±0.03

0.66

±0.03

8.0

±0.2 3.50

±0.05

1.75

±0.10 2.00

±0.05

2.00

±0.05

4.0

±0.1

1.5+0.1

0.55

max. 0.36

±0.03

(Unit : mm)

Size

Code

Thickness

(mm) Kind of Taping Pitch

(mm)

Quantity

(pcs./reel)

Z(0201) 0.3

Pressed Carrier Taping

2 15,000

0(0402) 0.5

Punched Carrier Taping

2 10,000

1(0603) 0.8 4 4,000

Part Number

(Size)

Minimum Quantity

/ Packing Unit

Packing Quantity

in Carton

Carton

L×W×H (mm)

ERTJZ

(0201) 15,000 300,000 250×200×200

ERTJ0

(0402) 10,000 200,000 250×200×200

ERTJ1

(0603) 4,000 80,000 250×200×200

Part No., quantity and country of origin are designated

on outer packages in English.

Dimensions in mm (not to scale)

Packaging Methods

Minimum Quantity / Packing Unit

● Standard Packing Quantities ● Reel for Taping

● Leader Part and Taped End

Leader part

Dec. 201705

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