HI-SINCERITY
MICROELECTRONICS CORP.
Spec. No. : Preliminary Data
Issued Date : 1998.08.01
Revised Date : 1999.06.01
Page No. : 1/6
HSMC Product Specification
H34063AP
DC-TO-DC CONVERTER INTEGRATE CIRCUIT DEVICES
Description
The H34063AP Series is a monolithic control circuit containing the
primary functions required for DC-to-DC converters. These devices
consist of an internal temperature compensated reference,
comparator, controlled duty cycle oscillator with an active current
limit circuit, driver and high current output switch. This series was
specifically by Hi-Sincerity Microelectronics Corp.
Features
3V to 40V Input Voltage Operation
Internal 1.6A Peak Current Switch
Internal 1.8% Reference
Low Quiescent Current at 1.6mA
Frequency Operation from 100Hz~100KHz
Current Limiting
Applications
Saver for Cellular Phone
DC-DC Converter Module
Typical Application Circuit
1
8
2
3
4
5
6
7
Fig1.Saver Circuit for Cellular Phone
V
in
V
out
C
out
220
F
D1
H1N5819
C
T
470
F
RSC
C1
100
F
RA
5.6k
RB
33k
200
H
L1
H34063AP
HI-SINCERITY
MICROELECTRONICS CORP.
Spec. No. : Preliminary Data
Issued Date : 1998.08.01
Revised Date : 1999.06.01
Page No. : 2/6
HSMC Product Specification
Pin Connections
Pin1:Switch Collector
Pin5:Comparator Inverting Input
Pin2:Switch Emitter
Pin6:Vcc
Pin3:Timing Capacitor
Pin7:Ipk Sense
1
2
3
4
5
6
7
8
Pin4:Gnd
Pin8:Driver Collector
Absolute Maxium Rating
Supply Voltage ..................................................................................................................... 40 V
Comparator Input Voltage Range ............................................................................. -0.3V ~ 40 V
Switch Collector Voltage ...................................................................................................... 40 V
Switch Emitter Voltage ......................................................................................................... 40 V
Switch Collector to Emitter Voltage ...................................................................................... 40 V
Driver Collector Voltage ....................................................................................................... 40 V
Switch Current ..................................................................................................................... 1.6 A
Power Dissipation DIP Package Ta=25
C .......................................................................... 1.0 W
Thermal Resistance Junction To Air............................................................................ 125
C / W
Operating Junction Temperature........................................................................................ 125
C
Operating Ambient Temperature Range ........................................................................ 0 ~ 70
C
Storage Temperature Range................................................................................ -40
C ~ 125
C
Electrical Characteristics
(Vcc=5V,Ta=25
C, unless otherwise specified)
Parameter
Test Condition
Symbol
Min.
Typ. Max. Unit
Oscillator
Charging Current
5.0V
V
CC
40V
I
chg
24
35
42
uA
Discharge Current
5.0V
V
CC
40V
I
dischg
140
220
260
uA
Voltage Amplitude
Pin3
V
OSC
-
0.6
-
V
Discharge to Charge Current Ratio V
IPK(Sense)
=V
CC
I
Dischg
/I
chg
5.2
6.5
7.5
Current Limit Sense Voltage
I
Chg
=I
dischg
V
IPK(Sence)
250
300
350
mV
Output Switch
Saturation Voltage, Darlington
Connection
I
SW
=1.0A,
V
C(Driver)=
VC(Switch)
V
CE(Sat)
-
1.0
1.3
V
Saturation Voltage
I
SW
=1.0A,
I
C(Driver)
=50mA
(Forced
20)
V
CE(Sat)
-
0.4
0.7
V
DC Current Gain
I
SW
=1.0A, V
CE
=5.0V
hFE
50
75
-
V
Collector Off-State Current
V
CE
=30V
I
CC(Off)
-
0.01
100
UA
Comparator
Threshold Voltage
Threshold Voltage
0
C
Ta
70
C
V
FB
1.227
1.210
1.250
-
1.273
1.29
V
Threshold Voltage Line Regulation 3.0V
V
CC
40V
Regline
-
1.5
6
mV
Input Bias Current
V
IN
=0V
I
IB
-
-20
-400
nA
Supply Current
V
IPK(Sence)
=V
CC
V
Pin5
>
V
FB
,
5.0V
V
CC
40V
C
T
=0.0001uF,Pin2=Gnd
Remaining pins open
I
CC
-
1.6
3
mA
HI-SINCERITY
MICROELECTRONICS CORP.
Spec. No. : Preliminary Data
Issued Date : 1998.08.01
Revised Date : 1999.06.01
Page No. : 3/6
HSMC Product Specification
Block Diagram
Application Information
Design Formula Table
Calculation
Step-Down
Step-Up
Voltage-Inverting
t
on
/ t
off
V
out
+V
F
/
V
in(min)
-V
sat
-V
Out
Vout+V
F
-V
in(min)
/
V
in(min)
-V
sat
|V
out
| + V
F /
V
in
-V
sat
(t
on
+ t
off
) max
1/F
min
1/F
min
1/F
min
C
T
4*10
-5
t
on
4*10
-5
t
on
4*10
-5
t
on
I
C(switch)
2*I
out(max)
2*I
out(max)
(t
on
+t
off
/t
off
)
2*I
out(max)
(t
on
+t
off
/t
off
)
RS
0.3 / I
C(switch)
0.3 / I
C(switch)
0.3 / I
C(switch)
L
(min)
(V
in(min)-
V
sat
-V
out
/
I
C(switch)
)
*t
on(max)
(V
in(min)-
V
sat
/
I
C(switch)
)
*t
on(max)
(V
in(min)-
V
sat
/
I
C(switch)
)
*t
on(max)
C
O
I
C(switch)
*(t
on
+t
off)
/
8V
Ripple(P-P)
I
out
*t
on
/ V
Ripple(P-P)
I
out
*t
on
/ V
Ripple(P-P)
V
sat
: Saturation voltage of the output switch.
V
F
: Forward voltage drop of the ringback rectifier.
The following power supply characteristics must be chosen :
V
in
: Nominal input voltage.
V
out
: Desired output voltage. |V
out
|=1.25*(1+RB/RA)
I
out
- Desired output current
Fmin : Minimum desired output switching frequency at the selected values for V
in
and I
out
.
V
Ripple(P-P)
: Desired peak to peak output ripple voltage in practice, the calculated value will need to be increased
due to the capacitor equivalent series resistance and board layout. The ripple voltage should be kept to a low value
since it will directly effect the line and load regulation.
SC
Pin1:1.6A Switch Collector
TC
Pin3:Oscilletor Timing Capacitor
GND
Pin4:Power GND
DRI
Pin8:Driver Collector
IPK
Pin7:Highside Current Sense
Input, VCC-VIPK=300mV
VCC
Pin6:Power Supply Input
FB
Pin5:Feedback Comparator
Inverting Input
SE
Pin2:Darlington Switch Emitter
Q1
Q2
80
Q S
R
CT
IPK
Oscillator
Comparator
1.25V
Reference Voltage
+
-
HI-SINCERITY
MICROELECTRONICS CORP.
Spec. No. : Preliminary Data
Issued Date : 1998.08.01
Revised Date : 1999.06.01
Page No. : 4/6
HSMC Product Specification
Application Information
(Continuos)
1
8
2
3
4
5
6
7
1
8
2
3
4
5
6
7
V
out
28V / 200mA
R1
150
C
out
220
F
C
T
680
F
V
in
RA
2.2k
RSC
0.22
C1
100
F
H34063AP
L1
D1
200
H
H1N5819
RB
47k
Line Regulation : 100mV (V
in
=8V~16V, @I
o
=200mA)
Load Regulation : 5mV (Vin=12V, @Io=80mA~200mA)
Fig.2 Step-Up Converter
1
8
2
3
4
5
6
7
H34063AP
RSC
C1
RA
R1
RB
C
T
D1
L1
Q1
R2
V
in
V
out
C
out
Fig.3 Step-Up Converter With External NPN Switch
Fig.4 Step-Down Converter
Line Regulation : 40mV (V
in
=10V~20V, @I
o
=500mA)
Load Regulation : 5mV (Vin=15V, @Io=10mA~500mA)
Short Circuit Current : 1.3A (Vin=15V, @RL=0.1
H34063AP
V
out
5V / 500mA
RSC
0.25
L1
RB
RA
1.2k
3.6k
C
T
470
F
D1
H1N5819
200
H
C
out
470
F
C1
100
F
V
in
HI-SINCERITY
MICROELECTRONICS CORP.
Spec. No. : Preliminary Data
Issued Date : 1998.08.01
Revised Date : 1999.06.01
Page No. : 5/6
HSMC Product Specification
1
8
2
3
4
5
6
7
1
8
2
3
4
5
6
7
1
8
2
3
4
5
6
7
Fig.5 Step-Down Converter With External PNP Saturation Switch
V
out
V
in
H34063AP
R2
R1
Q1
L1
D1
RSC
C1
RA
RB
C
out
C
T
Fig.6 Voltage Inverting Converter
V
out
-12V / 100mA
C
out
470
F
L1
100
H
D1 H1N5819
C
T
680
F
H34063AP
RSC
0.25
C1
100
F
RB
8.2k
RA
953
V
in
4.5V-6V
Line Regulation : 20mV (V
in
=4.5V~6V, @I
o
=100mA)
Load Regulation : 100mV (Vin=5V, @Io=10mA~100mA)
Fig.7 Voltage Inverting Converter With External PNP Saturation Switch
V
out
C
out
D1
L1
R1
R2
H34063AP
C
T
RSC
RA
RB
C1
V
in
Q1
PDF 
ZIP