ROHM BA3899

Standard ICs
EL driver for portable sets
BA3899F
The BA3899F is an IC developed for EL drive applications. It uses a more compact interface than transformer systems, and is ideal for use in thin sets.
Applications
•Pagers,
electronic notebooks and other portable devices
•1)Features
Drive oscillation frequency can be set using external capacitance.
2) Equipped with standby control pin.
•Absolute maximum ratings (Ta = 25°C)
Parameter
Power supply voltage
Symbol
Limits
Unit
VCC
8.0
V
mW
Pd
450∗
Operating temperature
Topr
– 10 ~ + 60
°C
Storage temperature
Tstg
– 55 ~ + 125
°C
Maximum applied voltage
VST
Power dissipation
8.0
V
∗ Reduced by 4.5mW for each increase in Ta of 1°C over 25°C.
•Recommended operating conditions (Ta = 25°C)
Parameter
Symbol
Min.
Typ.
Max.
Unit
VCC
1.0
5.0
7.0
V
Power supply voltage
•Block diagram
SW1
SW2
VCC
STBY
8
7
6
5
STBY
RSW2
OSC1
OSC2
1
2
3
4
GND
N.C.
C1
C2
1
Standard ICs
BA3899F
•Pin descriptions
Pin No.
Pin name
I/O
Pin voltage
Internal equivalent circuit
1
GND
I
—
—
2
N.C.
—
—
—
Function
GND pin
—
VCC
3
C1
I/O
—
1k
OSC1 oscillator circuit;
external capacitor pin
200Ω
OSC2 oscillator circuit;
external capacitor pin
C1
GND
VCC
4
C2
I/O
—
C2
GND
1k
Standby control pin
(HIGH state: standby cancelled)
50k
STBY
5
STBY
I
0
䊊When applying resistance, etc.
to the STBY pin, be careful not
to exceed the threshold values.
200k
GND
6
VCC
I
—
—
VCC input pin
VCC
50k
7
SW2
O
SW2 switching output pin
—
X1
X20
SW2
500Ω
GND
VCC
8
SW1
O
X1
—
GND
2
X5
SW1
SW1 switching output pin
Standard ICs
BA3899F
•Electrical characteristics (unless otherwise noted, Ta = 25°C, V
CC
Parameter
Symbol
Min.
Typ.
Supply current
ICC
3.0
C1 pin oscillation frequency
fSW1
75
C2 pin oscillation frequency
= 5.0V, C1 = 0.033µF, C2 = 1500pF)
Max.
Unit
4.6
6.2
mA
95
120
Hz
Conditions
When used as stand-alone unit
—
fSW2
17
23
29
kHz
—
ISW1SO
100
140
180
µA
VC1 = 1.0V, VC2 = 0.05V, VSW1 = 0V
Sink current
ISW1SI
– 40
—
—
µA
VC1 = 0.05V, VC2 = 0.05V, VSW1 = 1.0V
Source current
ISW2SO
3.2
4.4
6.1
mA
VC1 = 0.05V, VC2 = 0.05V, VSW2 = 0V
Pull-down resistance
RSW2
400
500
600
Ω
Standby pin control Operating
voltage condition
Non-operating
VSTON
1.0
—
—
V
—
VSTOFF
—
—
0.3
V
—
IQ (ST)
—
0
2.0
µA
—
SW1
SW2
Source current
Quiescent current in standby state
Vst = 0.35V, VSW2 = 0.3V
•Measurement circuit
fSW1
fSW2
Counter
Counter
VSW1
VSW2
VCC
A
IQ
ISW2
8
VSTBY
A
A
ISW1
7
6
5
STBY
RSW2
1
2
VC1
OSC1
OSC2
3
4
0.033µF
± 1%
VC2
1500pF
± 1%
Fig.1
3
Standard ICs
BA3899F
•Application example
D1
EL 16000pF
R1
ROHM: 1SS376
∗
L1
1.5mH (TOKO: D73LC)
2k
Q2
Q1
+
SANYO: 2SC3645T
2.2µF
100k
VCC = 5V
ROHM: 2SC4061KP
8
7
SW1
6
SW2
VCC
5
STBY
STBY
RSW2
RX
300k
OSC1
1
GND
2
N.C.
3
OSC2
C1
C1
8200pF ± 10%
4
C2
C2
1500pF ± 10%
Fig. 2
∗ Because of the characteristics of the EL element, continuous application of particularly high DC power supply voltage can shorten the lifetime of the
element. To avoid this, we recommend inserting a switch in the power supply line.
4
Standard ICs
BA3899F
D1
ROHM: 1SS376
EL 5000pF
R1
L1
1mH (TOKO: 43FS) or (TDK: NL453232)
4.7k
Q2
Q1
+
SANYO: 2SC3143K5
2.2µF
VCC = 1.5V
ROHM: 2SC4061KP
8
7
SW1
6
SW2
VCC
5
STBY
VSTBY = 1.5V
Hi: act
STBY
RSW2
OSC2
OSC1
1
GND
2
N.C.
3
C1
C1
0.033µF ± 10%
4
C2
C2
1500pF ± 10%
Fig. 3
5
Standard ICs
BA3899F
notes
•(1)Operation
EL drive output
(4) Q1, Q2, and D1
The VO (Max.) shown in Figure 4 is applied to the output
VO, so if using any transistor other than that recommended, caution is required concerning the pressure
withstand value. Also, Q2 must have characteristics
which allow it to keep pace with the switching speed of
fSW2.
As shown in Figure 4, the EL drive output consists of
charging (rise in voltage caused by switching) and discharging waveforms. The switching frequency is determined by fSW2 and the charging and discharging timing
by fSW1.
tSW1 (fSW1)
VO (Max.)
t2
Discharge
t1
Charge
Fig.4
(2) Setting fSW1
The oscillation frequency is determined by charging
and discharging of the external capacitance of the C1
pin. The value for C1 should be set based on the following equation.
C1 =
1
VC1 × ( 1 + 1 )
I2
I1
1
= (3.14E – 6) ×
fSW1
×
1
(5) RX (resistor for adjusting light volume)
With a configuration like that shown in Figure 5, the
volume of light can be adjusted. However, RX should
be set so that IX satisfies the following condition.
Ix ( =
fSW1
(VCC = 5V)
If IX > 40µA, LSI dispersion, temperature fluctuation,
and other elements can cause oscillation of the C2 pin
to stop. Be sure the above condition is satisfied.
The recommended setting range for fSW1 is 40Hz to
800Hz. However, the VO (Max.) shown in Figure 4 is
determined by fSW1, so caution is required concerning
the pressure withstand values of Q1, Q2, and D1.
(3) fSW2
fSW2 is the switching pressure rise frequency, and is
determined by the external capacitance of the C2 pin.
This value (1500pF) is determined by the inductance
value and the Q2 transistor capability. When changing
this value, the drive capability of Q2 must be taken into
consideration in order to avoid the possibility of malfunction.
6
Vx – 0.2V
) < 40µA
Rx
C2
4
Rx
Vx
Ix
1500pF
Fig.5
Standard ICs
BA3899F
•Electrical characteristic curves
C1 = 0.033µF
C2 = 1500pF
VST = 5V
Rx = ∞
9
8
7
OSCILLATION FREQUENCY: fSW (Hz)
QUIESCENT CURRENT: ICC (mA)
10
75°C
6
5
4
– 25°C
3
25°C
2
1
fSW1
75°C
– 25°C
10k
25°C
C1 = 0.033µF
C2 = 1500pF
Rx = ∞
1k
fSW2
75°C
100
– 25°C
25°C
0
0
1
2
3
4
5
6
7
8
9
10
0
1
2
INPUT VOLTAGE: VCC (V)
Fig. 6 Supply current (when used
as stand-alone unit) vs.
power supply voltage
5
6
7
8
3.0
75°C
SW1 SINK CURRENT: ISW1SI (%)
SW1 SOURCE CURRENT: ISWISO (µA)
4
Fig. 7 Oscillation frequency of C1
and C2 pins vs. power supply
voltage
250
200
25°C
150
– 25°C
100
50
VC1 = 1.0V
VSW1 = 0V
0
0
1
2
3
4
5
6
7
8
9
VC1 = 0V
VSW1 = 1.0V
VST = 5V
2.0
75°C
25°C
1.0
– 25°C
10
0
10
0
1
2
INPUT VOLTAGE: VCC (V)
VC1 = 1.0V
VSW1 = 0V
VST = 5V
9
8
7
75°C
6
5
4
– 25°C
3
25°C
2
1
0
0
1
2
3
4
5
6
7
8
4
5
6
7
8
9
10
Fig. 9 SW1 source current vs.
power supply voltage
9
INPUT VOLTAGE: VCC (V)
Fig. 10 SW2 source current vs.
power supply voltage
10
SW2 PULL-DOWN RESISTANCE: RSW2 (Ω)
10
3
INPUT VOLTAGE: VCC (V)
Fig. 8 SW1 sink current vs.
power supply voltage
SW2 SOURCE CURRENT: ISW2SO (mA)
3
INPUT VOLTAGE: VCC (V)
1000
VCC = 5V
VSW2 = 0.2V
VST = 0V
900
800
700
75°C
600
500
400
– 25°C
25°C
300
200
100
0
0
1
2
3
4
5
6
7
8
9
10
INPUT VOLTAGE: VCC (V)
Fig. 11 SW2 pull-down resistance vs.
power supply voltage
7
Standard ICs
BA3899F
•External dimensions (Units: mm)
1
4
0.11
1.27
0.15 ± 0.1
4.4 ± 0.2
5
1.5 ± 0.1
6.2 ± 0.3
5.0 ± 0.2
8
0.4 ± 0.1
0.3Min.
0.15
SOP8
8