HITACHI BRA144

BRA144ECM Series
PNP Built-in Resistor Transistor CMPAK Series
Inverter, Driver, Switching
ADE-208-1444B (Z)
Rev.2
Sep. 2001
Features
• Built–in Resistor Type
• Simplifies Circuit Design
• Reduces Board Space
• Complementary pair with BRC144ECM series
Outline
CMPAK
3
3
R1
2
1
R2
2
1. Ground (Emitter)
2. Input (Base)
3. Output (Collector)
Note: Marking is shown in below.
Device
Marking
R1 (kΩ
Ω)
R2 (kΩ
Ω)
BRA144ECM
AG
47
47
BRA124ECM
CG
22
22
BRA114ECM
EG
10
10
BRA143ECM
GG
4.7
4.7
BRA123ECM
JG
2.2
2.2
1
BRA144ECM Series
Absolute Maximum Ratings
(Ta = 25°C)
Item
Symbol
Ratings
Unit
Supply voltage
VCC
–50
V
VI
+10 to –50
V
Input voltage
BRA144ECM
BRA124ECM
+10 to –45
BRA114ECM
+10 to –30
BRA143ECM
+10 to –20
BRA123ECM
+10 to –15
Output current
IO
–100
mA
Total power dissipation
PT*
150
mW
Junction temperature
Tj
150
°C
Storage temperature
Tstg
−55 to +150
°C
*Value on the glass epoxy board. (10 mm × 10 mm × 0.7 mm)
Rev.2, Sep. 2001, page 2 of 12
BRA144ECM Series
Electrical Characteristics
(Ta = 25°C)
Item
Symbol
Min
Typ
Max
Unit
Test conditions
Input on voltage BRA144ECM
VI(on)
–1.5

–4.5
V
BRA124ECM
–1.3

–3.0
VCC = –0.3 V,
IO = –5 mA
BRA114ECM
–1.2

–2.4
BRA143ECM
–1.1

–2.0
V
VCC = –5 V,
IO = –100 µA
–1.1

–1.8
–1.0

–1.5
BRA124ECM
–1.0

–1.5
BRA114ECM
–1.0

–1.5
BRA143ECM
–1.0

–1.5
BRA123ECM
–1.0

–1.5
BRA123ECM
Input off voltage BRA144ECM
VI(off)
Output saturation voltage
VO(on)


–0.3
V
IO = –10 mA,
II = –0.5 mA
Output cutoff current
IO(off)


–0.5
µA
VCC = –50 V, II = 0
DC current
transfer ratio
Gi
70


BRA124ECM
56


BRA114ECM
30


BRA143ECM
20


VCC = –5 V, IO = –10 mA
BRA123ECM
20


VCC = –5 V, IO = –20 mA
33
47
61
BRA144ECM
Input resistance BRA144ECM
Resistance ratio
R1
BRA124ECM
15
22
28
BRA114ECM
7
10
13
BRA143ECM
3.3
4.7
6.1
BRA123ECM
1.5
2.2
2.8
0.8
1.0
1.2
R1/R2
VCC = –5 V, IO = –5 mA
kΩ
Rev. 2, Sep. 2001, page 3 of 12
BRA144ECM Series
Total Power Dissipation Curve
Total Power Dissipation PT * (mW)
200
150
*Value on
the grass epoxy board.
(10 mm × 10 mm × 0.7 mm)
100
50
0
50
100
150
Ambient Temperature Ta (°C)
Rev.2, Sep. 2001, page 4 of 12
200
BRA144ECM Series
Main Characteristics (BRA144ECM)
Output Current vs. Supply Voltage
–0.6
–0.5
–60
–0.4
–40
–0.3
–0.2
–20
DC Current Gain vs. Output Current
VCC = –5 V
RL = 0
Pulse test
–1
–2
–3
–4
Supply Voltage VCC (V)
25˚C
Ta = –25˚C
Output Current IO (mA)
–10
–10
Ta = –25 ˚C
–1.0
25 ˚C
75˚C
–0.1
–0.1
–1.0
–10
Output Current IO (mA)
0
–1
–5
Input Voltage vs. Output Current
VCC = –0.3 V
RL = 0
Pulse test
–100
75˚C
100
II = –0.1 mA
–100
VI (V)
200
DC Current Gain Gi
–80
0
Input Voltage
–1.0
–0.9
–0.8
–0.7
RL = 0
Pulse test
Output On Voltage VO(on) (V)
Output Current IO (mA)
–100
–1.0
–0.1
–10
Output Current IO (mA)
Output Current vs. Input Voltage
VCC = –5 V
RL = 0
Pulse test
75˚C
–0.01
–0.001
0
–100
25˚C
Ta = –25˚C
–0.5 –1.0 –1.5 –2.0
Input Voltage VI (V)
–2.5
Output On Voltage vs. Output Current
–1.0
IO / II = 20
Pulse test
Ta = –25 ˚C
–0.1
25 ˚C
75 ˚C
–0.01
–0.001
–0.1
–1.0
–10
–100
Output Current IO (mA)
Rev. 2, Sep. 2001, page 5 of 12
BRA144ECM Series
Main Characteristics (BRA124ECM)
Output Current vs. Supply Voltage
DC Current Gain vs. Output Current
200
–1.0
–0.9
–0.8
–0.7
RL = 0
Pulse test
–80
DC Current Gain Gi
Output Current IO (mA)
–100
–0.6
–60
–0.5
–0.4
–40
–0.3
–0.2
–20
VCC = –5 V
RL = 0
Pulse test
100
25 ˚C
II = –0.1 mA
0
–1
–2
–3
–4
Supply Voltage VCC (V)
Ta = –25 ˚C
0
–1
–5
Input Voltage vs. Output Current
–10
VCC = –0.3 V
RL = 0
Pulse test
Output Current IO (mA)
Input Voltage
VI (V)
–100
75 ˚C
–10
Ta = –25 ˚C
25 ˚C
–1.0
75 ˚C
–1.0
–10
Output Current IO (mA)
–100
Output Current vs. Input Voltage
VCC = –5 V
RL = 0
Pulse test
–0.1
75 ˚C
25 ˚C
–0.01
Ta = –25 ˚C
–1.0
–10
Output Current IO (mA)
Output On Voltage VO(on) (V)
–0.1
–0.1
–100
–0.5 –1.0 –1.5 –2.0
Input Voltage VI (V)
Output On Voltage vs. Output Current
–1.0
IO / II = 20
Pulse test
Ta = –25 ˚C
–0.1
75 ˚C
25 ˚C
–0.01
–0.001
–0.1
Rev.2, Sep. 2001, page 6 of 12
–0.001
0
–1.0
–10
–100
Output Current IO (mA)
–2.5
BRA144ECM Series
Main Characteristics (BRA114ECM)
Output Current vs. Supply Voltage
DC Current Gain vs. Output Current
200
RL = 0
Pulse test
–1.0
–0.9
–0.8
–80
DC Current Gain Gi
Output Current IO (mA)
–100
–0.7
–60
–0.6
–0.5
–40
–0.4
–0.3
–20
0
–1
–2
–3
–4
Supply Voltage VCC (V)
100
25 ˚C
Ta = –25 ˚C
0
–1
–5
Input Voltage vs. Output Current
–10
Output Current IO (mA)
VCC = –0.3 V
RL = 0
Pulse test
–10
Ta = –25 ˚C
–1.0
25 ˚C
–0.1
–0.1
75 ˚C
–1.0
–10
Output Current IO (mA)
Output On Voltage VO(on) (V)
VI (V)
Input Voltage
75 ˚C
–0.2
II = –0.1 mA
–100
VCC = –5 V
RL = 0
Pulse test
–1.0
–100
Output Curent vs. Input Voltage
VCC = –5 V
RL = 0
Pulse test
–0.1
75 ˚C
–0.01
–0.001
0
–100
–10
Output Current IO (mA)
25 ˚C
Ta = –25 ˚C
–0.5 –1.0 –1.5 –2.0
Input Voltage VI (V)
–2.5
Output On Voltage vs. Output Current
–1.0
IO / II = 20
Pulse test
Ta = –25 ˚C
–0.1
25 ˚C
75 ˚C
–0.01
–0.001
–0.1
–1.0
–10
–100
Output Current IO (mA)
Rev. 2, Sep. 2001, page 7 of 12
BRA144ECM Series
Main Characteristics (BRA143ECM)
Output Current vs. Supply Voltage
DC Current Gain vs. Output Current
200
RL = 0
Pulse test
–1.0
–0.9
–0.8
–80
DC Current Gain Gi
Output Current IO (mA)
–100
–0.7
–0.6
–60
–0.5
–40
–0.4
–20
–0.3
VCC = –5 V
RL = 0
Pulse test
75 ˚C
100
25 ˚C
Ta = –25 ˚C
II = –0.2 mA
0
0
–1
–5
Input Voltage vs. Output Current
–10
VCC = –0.3 V
RL = 0
Pulse test
Output Current IO (mA)
Input Voltage
VI (V)
–100
–1
–2
–3
–4
Supply Voltage VCC (V)
–10
Ta = –25 ˚C
–1.0
75 ˚C
–1.0
–0.1
–10
Output Current IO (mA)
–100
Output Current vs. Input Voltage
VCC = –5 V
RL = 0
Pulse test
75 ˚C
25 ˚C
Ta = –25 ˚C
–0.01
25 ˚C
–0.1
–0.1
–1.0
–10
Output Current IO (mA)
Output On Voltage VO(on) (V)
–1.0
–100
–0.5 –1.0 –1.5 –2.0
Input Voltage VI (V)
Output On Voltage vs. Output Current
IO / II = 20
Pulse test
25 ˚C
–0.1
75 ˚C
Ta = –25 ˚C
–0.01
–0.001
–0.1
Rev.2, Sep. 2001, page 8 of 12
–0.001
0
–1.0
–10
–100
Output Current IO (mA)
–2.5
BRA144ECM Series
Main Characteristics (BRA123ECM)
Output Current vs. Supply Voltage
DC Current Gain vs. Output Curent
200
RL = 0
Pulse test
–1.2
–1.1
–1.0
–0.9
–80
–60
DC Current Gain Gi
Output Current IO (mA)
–100
–0.8
–0.7
–40
–0.6
–0.5
–20
VCC = –5 V
RL = 0
Pulse test
75 ˚C
100
25 ˚C
Ta = –25 ˚C
II = –0.4 mA
0
0
–1
–5
Input Voltage vs. Output Current
–10
Output Current IO (mA)
VCC = –0.3 V
RL = 0
Pulse test
–10
Ta = –25 ˚C
–1.0
25 ˚C
75 ˚C
–0.1
–0.1
–1.0
–0.1
–10
Output Current IO (mA)
–100
Output Current vs. Input Voltage
VCC = –5 V
RL = 0
Pulse test
75 ˚C
25 ˚C
–0.01
Ta = –25 ˚C
–1.0
–10
Output Current IO (mA)
Output On Voltage VO(on) (V)
Input Voltage
VI (V)
–100
–1
–2
–3
–4
Supply Voltage VCC (V)
–0.001
0
–100
–0.5 –1.0 –1.5 –2.0
Input Voltage VI (V)
–2.5
Output On Voltage vs. Output Current
–1.0
IO / II = 20
Ta = –25 ˚C
Pulse test
–0.1
25 ˚C
75 ˚C
–0.01
–0.001
–0.1
–1.0
–10
–100
Output Current IO (mA)
Rev. 2, Sep. 2001, page 9 of 12
BRA144ECM Series
Taping Specification
There are two different size reels in CMPAK packaging.
Packing to “Left” direction
Purchasing Identification Code
Standard Reel 3000 pcs/reel: Type No. + Mark TL
Large Reel
12000 pcs/reel: Type No. + Mark UL
Marking face is up.
Center lead goes to left.
Direction of feed
Rev.2, Sep. 2001, page 10 of 12
BRA144ECM Series
Package Dimensions
As of January, 2001
0.1
0.3+-0.05
0.2
0.65 0.65
1.3 ± 0.2
0.9 ± 0.1
0.1
0.3 +-0.05
+ 0.1
0.16 -0.06
0 - 0.1
0.425
1.25 ± 0.1
0.1
0.3 +-0.05
2.1 ± 0.3
2.0 ± 0.2
0.425
Unit: mm
Hitachi Code
JEDEC
EIAJ
Mass (reference value)
CMPAK

Conforms
0.006 g
Footprint
CMPAK
0.65
0.8
1.9
0.65
0.6
Rev. 2, Sep. 2001, page 11 of 12
BRA144ECM Series
Disclaimer
1. Hitachi neither warrants nor grants licenses of any rights of Hitachi’s or any third party’s patent,
copyright, trademark, or other intellectual property rights for information contained in this document.
Hitachi bears no responsibility for problems that may arise with third party’s rights, including
intellectual property rights, in connection with use of the information contained in this document.
2. Products and product specifications may be subject to change without notice. Confirm that you have
received the latest product standards or specifications before final design, purchase or use.
3. Hitachi makes every attempt to ensure that its products are of high quality and reliability. However,
contact Hitachi’s sales office before using the product in an application that demands especially high
quality and reliability or where its failure or malfunction may directly threaten human life or cause risk
of bodily injury, such as aerospace, aeronautics, nuclear power, combustion control, transportation,
traffic, safety equipment or medical equipment for life support.
4. Design your application so that the product is used within the ranges guaranteed by Hitachi particularly
for maximum rating, operating supply voltage range, heat radiation characteristics, installation
conditions and other characteristics. Hitachi bears no responsibility for failure or damage when used
beyond the guaranteed ranges. Even within the guaranteed ranges, consider normally foreseeable
failure rates or failure modes in semiconductor devices and employ systemic measures such as failsafes, so that the equipment incorporating Hitachi product does not cause bodily injury, fire or other
consequential damage due to operation of the Hitachi product.
5. This product is not designed to be radiation resistant.
6. No one is permitted to reproduce or duplicate, in any form, the whole or part of this document without
written approval from Hitachi.
7. Contact Hitachi’s sales office for any questions regarding this document or Hitachi semiconductor
products.
Sales Offices
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URL
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Copyright © Hitachi, Ltd., 2001. All rights reserved. Printed in Japan.
Colophon 5.0
Rev.2, Sep. 2001, page 12 of 12