ROHM BA823F

Serial-in / Parallel-out Driver Series
Serial-Parallel
3-input Driver
BA823F
No.09051EAT01
●Description
BA823F are an 8-bit serial-to-parallel-output driver, applicable for thermal printer heads or LED character display drivers.
●Features
1) Capable of driving a maximum of 200mA.
2) Non-driving current consumption can be reduced by controlling the strobe timing pulse.
3) Output data terminal can be used for a cascade configuration.
4) Digital ground and power ground are separated.
5) TTL and CMOS allow driving.
●Applications
Driver for thermal print head
Driver for LED character display
Parameter
Power supply voltage
Power
dissipation
BA823F
Input voltage
Operating temperature
Storage temperature
Symbol
Vcc
Pd
VIN MAX
Topr
Tstg
●Thermal derating curve
Limits
7.0*1
Unit
V
*3
mW
500
+0.3 to +6.0
-20 to +75
-55 to +125
V
℃
℃
*1 Voltage of O0~O7 terminals is 34V (Max.)
*2 Reduced by 5.5 mW/C over 25C.
*3 Reduced by 5.0 mW/C over 25C.
875
750
Power dissipation Pd (mW)
●Absolute maximum ratings (Ta=25℃)
625
BA823
500
BA823F
375
250
125
70℃
0
-25
0
25
50
75
100 125
Ambient temperature Ta (℃)
Fig.1
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1/8
2009.06 - Rev.A
150
Technical Note
BA823F
●Electrical characteristics (Unless otherwise specified, Ta=25℃,Vcc=+5.0V)
Parameter
Power supply
Current dissipation(no load)1
Current dissipation(no load)2
Input low level voltage
Input high level voltage
Input low level current
Input high level current
Maximum output voltage
Output saturation voltage
Output current
“H” output voltage
“L” output voltage
Minimum set up time
Minimum shift clock width
Minimum timing pulse width
Maximum transfer time
Symbol
VCC
IO1
IO2
VIL
VIH
IIL
IIH
VO OFF
VO ON
IOL
VDOH
VDOL
t1
T2
T3
fMax
Min.
4.5
2
2.4
500
Typ.
5.0
4
8
0.8
-
Max.
5.5
6
11
0.8
0.4
100
21.8
1.3
207
0.8
300
1
1
-
Unit
V
mA
mA
V
V
mA
μA
V
V
mA
V
V
ns
μs
μs
kHz
Conditions
VCC terminal
@All outputs = “0”
@All outputs = “0”
VIN=4.5V
VIN=2.0V
Ō 0 to Ō 7, Io=10μA
@Io=100mA sink
External voltage = 11.8V
RL=10kΩ
VIH=2.0V,VIL=0.8V
VIH=2.0V,VIL=0.8V
VIH=2.0V,VIL=0.8V
VIH=2.0V,VIL=0.8V
Test Circuit
Fig.2
Fig.2
Fig.2
Fig.2
Fig.2
Fig.2
Fig.3
Fig.3
Fig.3
Fig.3
Fig.3
Fig.3
-
OUTPUT CURRENT : IOUT (mA)
●Usage conditions range
200
100
Max usage conditions
Fig.2: Conditions to use supply voltage and output current (per circuit)
Maximum conditions of use in the diagram to the left, show the
absolute maximum supply voltage and IC output current.
This product should not exceed the usage conditions range.
Usage condition
range
0
0
10
20
SUPPLY VOLTAGE : Vcc (V)
Fig.2 Power supply voltage and
current usage conditions
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2/8
2009.06 - Rev.A
Technical Note
BA823F
●Block diagram
STROBE INPUT S
1
DATA INPUT D4
15
SHIFT PULSE C
Ō0
Ō1
Ō2
Ō3
Ō4
Ō5
Ō6
12
11
10
9
8
7
6
2
Ō7
5
16
VCC
3
DATA OUTPUT DO
13
GND1
4
GND2
14
GND
(Dig)
●Pin descriptions
Pin No.
Pin Name
Symbol
Function
2
SHIFT PULSE
C
Shift pulse of shift register
15
DATA INPUT
D1
Data input of shift register is stored during the shift pulse rise time.
1
STROBE
S
When “1” is effective, the content of shift register is outputted.
12
OUTPUT
Ō0
“0” is effective when the content of register is “1” on the 1st bit is outputted.
11
OUTPUT
Ō1
“0” is effective when the content of register is “1” on the 2nd bit is outputted.
10
OUTPUT
Ō2
“0” is effective when the content of register is “1” on the 3rd bit is outputted.
9
OUTPUT
Ō3
“0” is effective when the content of register is “1” on the 4th bit is outputted.
8
OUTPUT
Ō4
“0” is effective when the content of register is “1” on the 5th bit is outputted.
7
OUTPUT
Ō5
“0” is effective when the content of register is “1” on the 6tht bit is outputted.
6
OUTPUT
Ō6
“0” is effective when the content of register is “1” on the 7tht bit is outputted.
5
OUTPUT
Ō7
“0” is effective when the content of register is “1” on the 8th bit is outputted.
3
DATA OUTPUT
Do
Data having passed through the output circuit of Ō7 becomes the input of the next stage
16
VCC
VCC
5.0V .is used normally (±10%)
13
GND
GND1
Especially, GND of the output circuit of Ō 0~ Ō 3
4
GND
GND2
Especially, GND of the output circuit of Ō 4~ Ō7
14
GND
GND(Dig)
Especially, GND of the logic circuit
●Description of operation
BA823 is configured internally as shown in the block diagram. Terminals of clock C, data D1, and strobe S are used as input.
Data input is synchronized with the clock, read serially during the rise time and latched at the rise time edge of the shifted
shift register. The content of the set shift register appears on the output terminal of Ō0~ Ō7 when the strobe is input, as
shown in the time chart of Fig.5. Pulse width is the same as that of the strobe input pulse.
Data output terminal D0, is a terminal used for cascade connection of the IC, where the output of the final stage of the shift
register has appeared, and is connected to the next data input terminal D1. In this case, when the clock and the strobe are
used in conjunction, output terminal can be increased by 8 bits at a time.
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3/8
2009.06 - Rev.A
Technical Note
BA823F
●Measurement circuits
A
Vcc=5.0V
Item
Data should be left “0”.
VIN=4.5V
SW2
SW1
ICC
1
1
IIH
2
1~3
BA823F
A
3
2
SW2
2
1
1
PG
SW1
After 8 pulses have elapsed.
Fig.3 Icc 1st measurement circuit
VCC=5.0V
BA823F
5
1
2
SW1
8
7
4
1
After 8 pulses have elapsed.
SW2
SW3
1
1~8
1
IOL
1
1~8
1
VO OFF
2
1~8
2
2
SW2
PG
SW1
VO ON
IO = 10μA when VO OFF is measured
VA = 30V when IO ON is measured
3
6
Item
1
SW3
2
A IO
100mA
82Ω
VA
Fig.4 Vo ON, Vo OFF, IOL measurement circuit
●Input conditions
Data input
D1
Shift pulse
C
t1 t2
Print pulse
S
t3
Fig.5
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4/8
2009.06 - Rev.A
Technical Note
BA823F
●Timing chart
Clock input
C
DATA input
D1
Strobe input
S
Ō0
Ō1
Ō2
Ō3
Ō4
Ō5
Ō6
Ō7
DATA output
DO
Fig.6
●Application example
Ō7
Ō6
Ō5
Ō4
Ō3
Ō2
Ō1
Ō0
Ō7
Ō6
Ō5
DO
S
GND2
GND1
D1
DO
S
BA823F
C
VCC
Ō4
GND2
GND1
C
VCC
D1
DO
BA823F
S
GND2
GND1
C
VCC
D1
BA823F
Ō3
Ō2
Ō1
Ō0
Ō7
Ō6
Ō5
Ō4
Ō3
Ō2
Ō1
Ō0
10V
DATA signal
Shift pulse
Power supply 5V
Print pulse
Fig.7
Example: Print head using the strobe function
Disabling the high current while the heating
element is switched off is advantageous.
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© 2009 ROHM Co., Ltd. All rights reserved.
Use for thermal printer (when the timing is 1 phase) example
5/8
2009.06 - Rev.A
Technical Note
BA823F
●Interfaces
(a)
Input
(b)
Output
VCC
1,2,15pin
5.5kΩ
10kΩ
5,6,7,8,9,10,11,12pin
20kΩ
12kΩ
(c)
1.0kΩ
Serial data output
VCC
10kΩ
100Ω
200Ω
500Ω
3pin
5kΩ
Fig.8
MAXIMUM OUTPUT CURENT : low(mA)
●Thermal derating curve
13% 30%
200
160
15%
34%
120
Ta=75℃
Ta=25℃
BA823
80
40
48mA
42mA
BA823F
0
0
20
40
60
80
22mA
18mA
100
OUTPUT DUTY CYCLE(ALL BIT “ON”)(%)
At repetition frequency 1Hz or higher
Fig.9 Output conditions
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6/8
2009.06 - Rev.A
Technical Note
BA823F
●Notes for use
1. Absolute maximum ratings
An excess in the absolute maximum ratings, such as supply voltage, temperature range of operating conditions, etc., can
break down the devices, thus making impossible to identify breaking mode, such as a short circuit or an open circuit.
If any over rated values will expect to exceed the absolute maximum ratings, consider adding circuit protection devices,
such as fuses.
2. Connecting the power supply connector backward
Connecting of the power supply in reverse polarity can damage IC. Take precautions when connecting the power supply
lines. An external direction diode can be added.
3. Power supply lines
Design PCB layout pattern to provide low impedance GND and supply lines. To obtain a low noise ground and supply line,
separate the ground section and supply lines of the digital and analog blocks. Furthermore, for all power supply terminals
to ICs, connect a capacitor between the power supply and the GND terminal. When applying electrolytic capacitors in the
circuit, not that capacitance characteristic values are reduced at low temperatures.
4. GND voltage
The potential of GND pin must be minimum potential in all operating conditions.
5. Inter-pin shorts and mounting errors
Use caution when positioning the IC for mounting on printed circuit boards. The IC may be damaged if there is any
connection error or if pins are shorted together.
6. Actions in strong electromagnetic field
Use caution when using the IC in the presence of a strong electromagnetic field as doing so may cause the IC to
malfunction.
7. Testing on application boards
When testing the IC on an application board, connecting a capacitor to a pin with low impedance subjects the IC to stress.
Always discharge capacitors after each process or step. Always turn the IC's power supply off before connecting it to or
removing it from a jig or fixture during the inspection process. Ground the IC during assembly steps as an antistatic
measure. Use similar precaution when transporting or storing the IC.
8. Regarding input pin of the IC
This monolithic IC contains P+ isolation and P substrate layers between adjacent elements in order to keep them isolated.
P-N junctions are formed at the intersection of these P layers with the N layers of other elements, creating a parasitic diode
or transistor. For example, the relation between each potential is as follows:
When GND > Pin A and GND > Pin B, the P-N junction operates as a parasitic diode.
When GND > Pin B, the P-N junction operates as a parasitic transistor.
Parasitic diodes can occur inevitable in the structure of the IC. The operation of parasitic diodes can result in mutual
interference among circuits, operational faults, or physical damage. Accordingly, methods by which parasitic diodes
operate, such as applying a voltage that is lower than the GND (P substrate) voltage to an input pin, should not be used.
Resistor
Transistor (NPN)
Pin A
Pin B
C
Pin B
B
E
Pin A
N
P+
N
P+
P
N
Parasitic
element
N
P+
P substrate
Parasitic element
GND
B
N
P+
P
N
C
E
Parasitic
element
P substrate
Parasitic element
GND
GND
GND
Other adjacent elements
Fig.10 Example of IC structure
9. Ground Wiring Pattern
When using both small signal and large current GND patterns, it is recommended to isolate the two ground patterns,
placing a single ground point at the ground potential of application so that the pattern wiring resistance and voltage
variations caused by large currents do not cause variations in the small signal ground voltage. Be careful not to change the
GND wiring pattern of any external components, either.
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7/8
2009.06 - Rev.A
Technical Note
BA823F
●Ordering part number
B
D
8
Part No.
2
3
Part No.
F
-
Package
F: SOP16
E
2
Packaging and forming specification
E2: Embossed tape and reel
SOP16
<Tape and Reel information>
10 ± 0.2
(MAX 10.35 include BURR)
9
Tape
Embossed carrier tape
Quantity
2500pcs
Direction
of feed
E2
The direction is the 1pin of product is at the upper left when you hold
( reel on the left hand and you pull out the tape on the right hand
)
0.3MIN
4.4±0.2
6.2±0.3
16
1
8
0.11
1.5±0.1
0.15 ± 0.1
1.27
0.4 ± 0.1
0.1
1pin
Reel
(Unit : mm)
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Direction of feed
∗ Order quantity needs to be multiple of the minimum quantity.
2009.06 - Rev.A
Notice
Notes
No copying or reproduction of this document, in part or in whole, is permitted without the
consent of ROHM Co.,Ltd.
The content specified herein is subject to change for improvement without notice.
The content specified herein is for the purpose of introducing ROHM's products (hereinafter
"Products"). If you wish to use any such Product, please be sure to refer to the specifications,
which can be obtained from ROHM upon request.
Examples of application circuits, circuit constants and any other information contained herein
illustrate the standard usage and operations of the Products. The peripheral conditions must
be taken into account when designing circuits for mass production.
Great care was taken in ensuring the accuracy of the information specified in this document.
However, should you incur any damage arising from any inaccuracy or misprint of such
information, ROHM shall bear no responsibility for such damage.
The technical information specified herein is intended only to show the typical functions of and
examples of application circuits for the Products. ROHM does not grant you, explicitly or
implicitly, any license to use or exercise intellectual property or other rights held by ROHM and
other parties. ROHM shall bear no responsibility whatsoever for any dispute arising from the
use of such technical information.
The Products specified in this document are intended to be used with general-use electronic
equipment or devices (such as audio visual equipment, office-automation equipment, communication devices, electronic appliances and amusement devices).
The Products specified in this document are not designed to be radiation tolerant.
While ROHM always makes efforts to enhance the quality and reliability of its Products, a
Product may fail or malfunction for a variety of reasons.
Please be sure to implement in your equipment using the Products safety measures to guard
against the possibility of physical injury, fire or any other damage caused in the event of the
failure of any Product, such as derating, redundancy, fire control and fail-safe designs. ROHM
shall bear no responsibility whatsoever for your use of any Product outside of the prescribed
scope or not in accordance with the instruction manual.
The Products are not designed or manufactured to be used with any equipment, device or
system which requires an extremely high level of reliability the failure or malfunction of which
may result in a direct threat to human life or create a risk of human injury (such as a medical
instrument, transportation equipment, aerospace machinery, nuclear-reactor controller,
fuel-controller or other safety device). ROHM shall bear no responsibility in any way for use of
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