Holtek HT1050 Voltage regulator Datasheet

HT10XX
Voltage Regulator
Features
•
•
•
Low power consumption
Low voltage dropout
Low temperature coefficient
•
•
Wide operating voltage (12V Max.)
TO-92 & SOT-89 packages
•
Audio/Video equipment
Applications
•
•
Battery-powered equipment
Communication equipment
General Description
Although designed primarily as fixed voltage
regulators, these devices can be used with external components to obtain variable voltages
and currents.
The HT10XX series is a set of three-terminal low
power voltage regulators implemented in CMOS
technology. They are available with several fixed
output voltages ranging from 1.5V~7.0V. The advantage of CMOS technology is low voltage dropout and low quiescent current.
Pin Assignment
1
3rd Oct ’96
HT10XX
Pad Assignment
Unit:mil
Pad No.
X
Y
1
–28.2
16.6
2
–7.55
16.7
3
–30.1
16.6
Chip size: 76 × 50 (mil)2
*The IC substrate should be connected to VDD in the PCB layout artwork.
Block Diagram
Absolute Maximum Ratings
Supply Voltage ............................... –0.3V to 13V
Storage Temperature................. –50°C to 125°C
Power Dissipation...................................250mW
Operating Temperature................... 0°C to 70°C
2
3rd Oct ’96
HT10XX
Selection Guide
Item
Pin Assignment
Output Voltage
Tolerance
HT1015
HT1016
B
A
1.5V
±2.4%, ±5%
HT1030
HT1031
B
A
3.0V
±2.4%, ±5%
HT1033
HT1034
B
A
3.3V
±2.4%, ±5%
HT1036
HT1037
B
A
3.6V
±2.4%, ±5%
HT1044
HT1045
B
A
4.4V
±2.4%, ±5%
HT1050
HT1051
B
A
5.0V
±2.4%, ±5%
HT1070
HT1071
B
A
7.0V
±2.4%, ±5%
Electrical Characteristics
(Ta=25°C)
HT10XX series (HT1015, HT1016, +1.5V output type)
Symbol
Test Condition
Parameter
VIN
VOUT
Output Voltage Tolerance
3.5V
IOUT
Output Current
3.5V
∆VOUT
Load Regulation
3.5V
VDIF
Voltage Dropout
—
ISS
Current Consumption
∆VOUT
Line Regulation
∆VIN • VOUT
VIN
Input Voltage
∆VOUT
∆Ta
Temperature Coefficient
Min.
Typ. Max.
Unit
Condition
IOUT=0.5mA
1.425
1.5
1.575
V
7.0
—
—
mA
1mA≤IOUT≤7mA
—
80
—
mV
IOUT=0.5mA
—
300
—
mV
No load
—
2.2
5.0
µA
2.5V≤VIN≤12V
IOUT=0.5mA
—
0.2
—
%/V
—
—
12
V
—
±0.25
—
mV/°C
—
3.5V
—
—
—
IOUT=0.5mA
0°C<Ta<70°C
3.5V
3
3rd Oct ’96
HT10XX
(Ta=25°C)
HT10XX series (HT1030, HT1031, +3.0V output type)
Symbol
Test Condition
Parameter
VIN
VOUT
Output Voltage Tolerance
5V
IOUT
Output Current
5V
∆VOUT
Load Regulation
VDIF
ISS
Min.
Typ. Max.
2.85
3.0
3.15
V
—
20
30
—
mA
5V
1mA≤IOUT≤20mA
—
60
100
mV
Voltage Dropout
—
IOUT=1mA
—
60
—
mV
Current Consumption
5V
No load
—
2.5
6.0
µA
—
4V≤VIN≤12V
IOUT=1mA
—
0.2
—
%/V
—
—
12
V
—
±0.45
—
mV/°C
∆VOUT
Line Regulation
∆VIN • VOUT
VIN
Input Voltage
—
∆VOUT
∆Ta
Temperature Coefficient
5V
IOUT=10mA
—
IOUT=10mA
0°C<Ta<70°C
(Ta=25°C)
HT10XX series (HT1033, HT1034, +3.3V output type)
Symbol
Unit
Condition
Test Condition
Parameter
VIN
VOUT
Output Voltage Tolerance 5.5V IOUT=10mA
IOUT
Output Current
5.5V
∆VOUT
Load Regulation
5.5V 1mA≤IOUT≤30mA
VDIF
Voltage Dropout
ISS
Current Consumption
∆VOUT
Line Regulation
∆VIN • VOUT
VIN
Input Voltage
∆VOUT
∆Ta
Temperature Coefficient
—
—
IOUT=1mA
5.5V No load
—
4.5V≤VIN≤12V
IOUT=1mA
—
5.5V
Min.
Typ. Max.
Unit
Condition
—
IOUT=10mA
0°C<Ta<70°C
4
3.135
3.3
3.465
V
20
30
—
mA
—
60
100
mV
—
60
—
mV
—
2.5
6.0
µA
—
0.2
—
%/V
—
—
12
V
—
±0.5
—
mV/°C
3rd Oct ’96
HT10XX
(Ta=25°C)
HT10XX series (HT1036, HT1037, +3.6V output type)
Symbol
Test Condition
Parameter
VIN
VOUT
Output Voltage Tolerance
5.6V
IOUT
Output Current
5.6V
∆VOUT
Load Regulation
5.6V
VIDF
Voltage Dropout
—
ISS
Current Consumption
∆VOUT
Line Regulation
∆VIN • VOUT
VIN
Input Voltage
∆VOUT
∆Ta
Temperature Coefficient
Min.
Typ. Max.
IOUT=10mA
5.6V
—
3.42
3.6
3.78
V
—
20
30
—
mA
1mA≤IOUT≤30mA
—
60
100
mV
IOUT=1mA
—
60
—
mV
No load
—
3.0
7.0
µA
4.6V≤VIN≤12V
IOUT=1mA
—
0.2
—
%/V
—
—
12
V
—
±0.6
—
mV/°C
—
—
IOUT=10mA
0°C<Ta<70°C
5.6V
(Ta=25°C)
HT10XX series (HT1044, HT1045, +4.4V output type)
Symbol
Test Condition
Parameter
VIN
VOUT
Output Voltage Tolerance
6.4V
IOUT
Output Current
6.4V
∆VOUT
Load Regulation
6.4V
VDIF
Voltage Dropout
—
ISS
Current Consumption
∆VOUT
Line Regulation
∆VIN • VOUT
VIN
Input Voltage
∆VOUT
∆Ta
Temperature Coefficient
Unit
Condition
Min.
Typ. Max.
Unit
Condition
IOUT=10mA
6.4V
—
—
4.18
4.4
4.62
V
—
20
30
—
mA
1mA≤IOUT≤30mA
—
60
100
mV
IOUT=1mA
—
60
—
mV
No load
—
3.0
7.5
µA
5.4V≤VIN≤12V
IOUT=1mA
—
0.2
—
%/V
—
—
12
V
—
±0.7
—
mV/°C
—
IOUT=10mA
0°C<Ta<70°C
6.4V
5
3rd Oct ’96
HT10XX
(Ta=25°C)
HT10XX series (HT1050, HT1051, +5.0V output type)
Symbol
Test Condition
Parameter
VIN
VOUT
Output Voltage Tolerance
7V
IOUT
Output Current
7V
∆VOUT
Load Regulation
VDIF
ISS
Min.
Typ. Max.
4.75
5.0
5.25
V
—
20
30
—
mA
7V
1mA≤IOUT≤30mA
—
60
100
mV
Voltage Dropout
—
IOUT=1mA
—
60
—
mV
Current Consumption
7V
No load
—
3.5
9.0
µA
—
6V≤VIN≤12V
IOUT=1mA
—
0.2
—
%/V
—
—
12
V
—
±0.75
—
mV/°C
∆VOUT
Line Regulation
∆VIN • VOUT
VIN
Input Voltage
—
∆VOUT
∆Ta
Temperature Coefficient
7V
IOUT=10mA
—
IOUT=10mA
0°C<Ta<70°C
(Ta=25°C)
HT10XX series (HT1070, HT1071, +7.0V output type)
Symbol
Unit
Condition
Test Condition
Parameter
VIN
VOUT
Output Voltage Tolerance
9V
IOUT
Output Current
9V
∆VOUT
Load Regulation
VDIF
ISS
Min.
Typ. Max.
Unit
Condition
6.65
7.0
7.35
V
—
20
30
—
mA
9V
1mA≤IOUT≤30mA
—
60
100
mV
Voltage Dropout
—
IOUT=1mA
—
60
—
mV
Current Consumption
9V
No load
—
5.0
12.5
µA
—
8V≤VIN≤12V
IOUT=1mA
—
0.2
—
%/V
—
—
12
V
—
±1.05
—
mV/°C
∆VOUT
Line Regulation
∆VIN • VOUT
VIN
Input Voltage
—
∆VOUT
∆Ta
Temperature Coefficient
9V
IOUT=10mA
—
IOUT=10mA
0°C<Ta<70°C
6
3rd Oct ’96
HT10XX
Application Circuit
The basic circuits using the HT10XX series
High output current positive voltage regulator
Short-Circuit protection for Tr1
7
3rd Oct ’96
HT10XX
Circuit for increasing output voltage
VOUT = VXX ( 1 +
≈ VXX (1 +
R2
) + ISS R2
R1
R2
)
R1
Circuit for increasing output voltage
VOUT = VXX + VDI
8
3rd Oct ’96
HT10XX
Constant current regulator
IOUT =
VXX
+ ISS
RA
Dual supply
9
3rd Oct ’96
HT10XX
Package Information
TO-92
10
3rd Oct ’96
HT10XX
SOT–89 outline
11
3rd Oct ’96
HT10XX
Type form and dimensions
φ
12
φ
3rd Oct ’96
HT10XX
Reel form and dimensions
13
3rd Oct ’96
HT10XX
Leader and trailer portion
Taped parts quantity
1000 Pcs/1 reel (–0/+10PCS)
Mechanical data
14
3rd Oct ’96
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