SHARP PQ09RG1

PQ05RG1/PQ05RG11 Series
Low Power-Loss Voltage Regulators
PQ05RG1/PQ05RG11 Series
Low Power-Loss Voltage Regulators(Built-in Reverse Voltage Protection Function
Between Input and Output)
■ Outline Dimensions
■ Applications
4.5±0.2
7.4±0.2
3.6±0.2
2.8±0.2
φ3.2±0.1
4-1.4
+0.3
-0
4-0.6
+0.2
-0.1
5V output
9V output
12V output
PQ05RG1
PQ09RG1
PQ12RG1
PQ05RG11
PQ09RG11
PQ12RG11
Internal connection diagram
1
2
4
3
■ Absolute Maximum Ratings
Parameter
*2
*3
*1
*2
*3
(0.5)
1
● 2
● 3
● 4
●
Specific IC
*1
(1.5)
3-(2.54)
■ Model Line-ups
*1
4.8MAX
15.6±0.5
PQ05RG1
¡Series power supply for various electronic equipment such as
VCRs and musical instruments
Output voltage
Output voltage
precision:±5%
Output voltage
precision:±2.5%
(Unit : mm)
10.2MAX
13.5MIN
¡Low power-loss (Dropout voltage : MAX. 0.5V)
¡Compact resin full-mold package
¡Built-in a function to prevent reverse voltage between input
and output
The diode to prevent reverse voltage between input and output
is not necessary. (VO-i=<15V)
¡Built-in ON/OFF control function
29.1MAX
■ Features
Input voltage
ON/OFF control terminal voltage
Input-output reverse voltage
Output current
Power dissipation
(No heat sink)
Power dissipation (With infinite heat sink)
Junction temperature
Operating temperature
Storage temperature
Soldering temperature
1 DC input (VIN)
2 DC output (VO)
3 GND
4 ON/OFF control
terminal (VC)
(Ta=25˚C)
Symbol
Rating
Unit
VIN
35
V
VC
35
V
VO-i
15
V
IO
1.0
A
PD1
1.5
W
PD2
15
Tj
150
˚C
Topr
-20 to +80
˚C
Tstg
-40 to +150
˚C
Tsol
260 (For 10s) ˚C
All are open except GND and applicable terminals.
Vo terminal applicable voltage from external:Vo (characteristics value )to 25V
Overheat protection may operate at 125=<Tj=<150˚C
· Please refer to the chapter“ Handling Precautions ”.
“ In the absence of confirmation by device specification sheets,SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices
shown in catalogs,data books,etc.Contact SHARP in order to obtain the latest version of the device specification sheets before using any SHARP's device. ”
Low Power-Loss Voltage Regulators
PQ05RG1/PQ05RG11 Series
■ Electrical Characteristics
*8
*4
*5
*6
*7
*8
(Unless otherwise specified, condition shall be IO=0.5A,Ta=25˚C*4 )
Parameter
Symbol
PQ05RG1
PQ09RG1
Output voltage
PQ12RG1
VO
PQ05RG11
PQ09RG11
PQ12RG11
Load regulation
RegL
Line regulation
RegI
Temperature coefficient of output voltage TCVO
Ripple rejection
RR
Dropout voltage
Vi-O
ON-state voltage for control
VC(ON)
ON-state current for current
IC(ON)
OFF-state voltage for control
VC(OFF)
OFF-state current for control
IC(OFF)
Quiescent current
Iq
Conditions
VIN= 7V
VIN=11V
VIN=14V
VIN= 7V
VIN=11V
VIN=14V
MIN.
4.75
8.55
11.4
4.88
8.78
11.7
45
2.0
-
IO=0.5A
*4
IO=5mA, *5
IO=5mA, Tj=0 to 125˚C, *6
Refer to Fig. 2
*7, IO=0.5A
*6, IO=0.5A
*6, IO=0.5A, VC=2.7V
*6
*6,
VO=0.4A
IO=0A, *6
TYP.
5.0
9.0
12.0
5.0
9.0
12.0
0.3
0.1
±0.01
60
0.2
6.0
PQ05RG1/11:VIN= 7V, IO=5mA to 1.0A
PQ09RG1/11:VIN=11V, IO=5mA to 1.0A
PQ12RG1/11:VIN=14V, IO=5mA to 1.0A
PQ05RG1/11:VIN= 6 to 16V
PQ09RG1/11:VIN=10 to 20V
PQ12RG1/11:VIN=13 to 23V
PQ05RG1/11:VIN= 7V
PQ09RG1/11:VIN=11V
PQ12RG1/11:VIN=14V
Input voltage shall be the value when output voltage is 95% in comparison with the initial value.
In case of opening control terminal 4, output voltage turns on.
Fig.1 Test Circuit
VIN
1
●
Fig.2 Test Circuit of Ripple Rejection
4
●
3
●
0.33µF
A
VC
A
IO
+
A
Iq
VO
47µF
2
●
1
●
~ ei
4
●
VIN
0.33µF
IO
47µF
+
3
●
V
RL
+
2
●
RL V
~ eo
VC
IC
f=120Hz (sine wave)
ei=0.5Vrms
VIN= 7V (PQ05RG1/PQ05RG11)
VIN=11V (PQ09RG1/PQ09RG11)
VIN=14V (PQ12RG1/PQ12RG11)
IO=0.5A
RR=20 log (ei/eo)
MAX.
5.25
9.45
12.6
5.12
9.22
12.3
2.0
2.5
0.5
20
0.8
-0.4
10.0
Unit
V
%
%
%/˚C
dB
V
V
µA
V
mA
mA
PQ05RG1/PQ05RG11 Series
Low Power-Loss Voltage Regulators
Fig.3 Power Dissipation vs. Ambient
Temperature
Fig.4 Overcurren Protection Characteristics
(Typical Value)
150
20
PD2
15
10
5
PD1
Tj=25˚C
Relative output voltage (%)
Power dissipation PD (W)
PD1 :No heat sink
PD2 :With infinite heat sink
VIN-VO=0.5,1,2,3,5,7,10V
100
50
0
0
-20
0
50
100
150
Ambient temperature Ta (˚C)
Note) Oblique line portion : Overheat protection may operate
in this area.
Fig.5 Overcurrent Protection
Characteristics (Typical Value)
2.0
+50
Tj=125,100,75,50,25,0,-20˚C
100
50
0
0.5
1.0
1.5
Output current IO (A)
Output voltage deviation ∆VO (mV)
VIN-VO =2V
Relative output voltage (%)
0.5
1.0
1.5
Output current IO (A)
Fig.6 Output Voltage Deviation vs. Junction
Temperature (PQ05RG1/11)
150
0
0
0
-50
-20
2.0
Fig.7 Output Voltage Deviation vs. Junction
Temperature (PQ09RG1/11)
VIN =7V
IO =5mA
0
25
50
75
100
Junction temperature Tj (˚C)
125
Fig.8 Output Voltage Deviation vs. Junction
Temperature (PQ12RG1/11)
VIN =11V
IO =5mA
Output voltage deviation ∆VO (mV)
Output voltage deviation ∆VO (mV)
+100
0
-100
-20
0
25
50
75
100
Junction temperature Tj (˚C)
125
+100 VIN =14V
IO =5mA
0
-100
-20
0
25
50
75
100
Junction temperature Tj (˚C)
125
Low Power-Loss Voltage Regulators
Fig.9 Output Voltage vs. Input Voltage
(PQ05RG1/11)
PQ05RG1/PQ05RG11 Series
Fig.10 Output Voltage vs. Input Voltage
(PQ09RG1/11)
7
Tj=25˚C
Tj=25˚C
5
Output voltage VO (V)
Output voltage VO (V)
6
RL=∞
4
RL=5Ω
RL=10Ω
3
2
10
RL=∞
RL=10Ω
RL=5Ω
5
1
0
0
2
4
6
8
Input voltage VIN (V)
0
10
Fig.11 Output Voltage vs. Input Voltage
(PQ12RG1/11)
Circuit operating current IBIAS (mA)
Output voltage VO (V)
RL=∞
10
RL=24Ω
RL=12Ω
5
0
15
30
Tj =25˚C
20
RL=5Ω
RL=10Ω
10
RL=∞
0
0
5
10
15
Input voltage VIN (V)
Tj =25˚C
20
RL=9Ω
RL=18Ω
10
RL=∞
0
5
Input voltage VIN (V)
10
Fig.14 Circuit Operating Current vs. Input
Voltage (PQ12RG1/11)
Circuit operating current IBIAS (mA)
30
0
20
Fig.13 Circuit Operating Current vs. Input
Voltage (PQ09RG1/11)
Circuit operating current IBIAS (mA)
5
10
Input voltage VIN (V)
Fig.12 Circuit Operating Current vs. Input
Voltage (PQ05RG1/11)
15
Tj=25˚C
0
30
Tj =25˚C
20
RL=12Ω
RL=24Ω
10
RL=∞
0
0
5
10
Input voltage VIN (V)
15
0
5
10
15
Input voltage VIN (V)
20
PQ05RG1/PQ05RG11 Series
Low Power-Loss Voltage Regulators
Fig.15 Dropout Voltage vs. Junction
Temperature
Fig.16 Quiescent Current vs. Input Voltage
(PQ05RG1/11)
10
0.7
Tj =25˚C
IO =0A
Quiescent current Iq (mA)
Dropout voltage Vi-O (V)
0.6
0.5
IO =1.0A
0.4
0.3
0.75A
0.2
0.5A
0.1
0.25A
0
-20
0
25
50
75
100
Junction temperature Tj (˚C)
15
20
25
30
Input voltage VIN (V)
35
Fig.18 Quiescent Current vs. Input Voltage
(PQ12RG1/11)
Quiescent current Iq (mA)
Quiescent current Iq (mA)
10
10
Tj =25˚C
IO =0A
5
ON
OFF
20
30
Input voltage VIN (V)
ON
OFF
15
7
35
Fig.20 Ripple Rejection vs. Output Current
100
Ripple rejection RR (dB)
Io=0A
ON
3
OFF
PQ05RG1/11
PQ09RG1/11
PQ12RG1/11
50
VIN=7V(PQ05RG1/11)
=11V(PQ09RG1/11)
=14V(PQ12RG1/11)
f=120Hz (sine wave)
1
0
-20
20
25
30
Input voltage VIN (V)
Tj=25˚C
VIN=7V(PQ05RG1/11)
=11V(PQ09RG1/11)
6
=14V(PQ12RG1/11)
2
5
40
Fig.19 Quiescent Current vs. Junction
Temperature
4
Tj =25˚C
IO=0A
0
0
10
Quiescent current Iq (mA)
OFF
5
10
5
ON
0
125
Fig.17 Quiescent Current vs. Input Voltage
(PQ09RG1/11)
5
ei=0.5Vrms
RR=20 log(ei/e0)
0
0
25
50
75
100
Junction temperature Tj (˚C)
125
0
0.5
Output current IO (A)
1.0
Low Power-Loss Voltage Regulators
80
Ripple rejection RR (dB)
70
PQ05RG1/11
PQ09RG1/11
60 PQ12RG1/11
50
40
Tj=25˚C
30 VIN=7V(PQ05RG1/11)
=11V(PQ09RG1/11)
=14V(PQ12RG1/11)
IO=0.5A
ei=0.5Vrms(sine wave)
RR=201og(ei/e0)
20
10
0
0
0.5 1
5 10
50 100
Input ripple frequency f (kHz)
Fig.23 Output Peak Current vs. Junction
Temperature
Output peak current IOP (A)
2.0
VIN-VO =5V
1.5
2V
0.5V
1.0
IOP :Output current when output voltage is 95%
in comparison with the initial value
0
-20
0
25
50
75
100
Junction temperature Tj (˚C)
125
Fig.22 Input-Output Reverse Current vs.
Input-Output Reverse Voltage
Input-output reverse current IO-i (mA)
Fig.21 Ripple Rejection vs. Input Ripple
Frequency
PQ05RG1/PQ05RG11 Series
10
Vo-i
A Io-i
VIN
VO
GND
5
PQ05RG1/11
PQ09RG1/11
PQ12RG1/11
0
0
5
10
15
20
25
Input-output reverse voltage VO-i (V)