AIC MC34063ACN Industrial standard, universal dc/dc converter Datasheet

MC34063A
Industrial Standard, Universal DC/DC Converter
n DESCRIPTION
n FEATURES
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3V to 30V Input Voltage Operation.
Internal 1.6A Peak Current Switch.
The
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by
Analog
Integrations
Corporation, an improved second source over the
Internal ±1.8% Reference.
Low Quiescent Current at 1.6mA.
Frequency Operation from 100Hz to 100KHz.
Current Limiting.
industrial standard MC34063A, is a monolithic
control circuit containing the primary functions
required for DC/DC converters. The device
consists of an internal temperature compensated
reference, comparator, controlled duty cycle
n APPLICATIONS
l
MC34063A
oscillator with an active current limit circuit, driver
Saver for Cellular phones
DC-DC Converter Module
and high current output switch. This device is
specifically designed to be incorporated in stepdown, step-up and voltage-inverting applications
with a minimum number of external components.
The ±1.8% internal reference and low quiescent
current of 1.6mA are among the improvements of
the device over the competition.
n TYPICAL APPLICATION CIRCUIT
VOUT
200µH
D1
1N5819
*RS
VIN
6
5
+
C1
7
DRI
SC
IPK
SE
VCC
TC
CO
1
2
FB
GND
100µF
3
4
CT
470pF
8
+
220µF
L
8.6V SAVER
*:Io=0.3/RS
RB
MC34063A
RA
5.6K
33K
Saver Circuit for Cellular Phone
n ORDERING INFORMATION
MC34063A CX
ORDER NUMBER
PACKAGE TYPE
N: PLASTIC DIP
S: SMALL OUTLINE
MC34063ACN
(PLASTIC DIP)
MC34063ACS
(PLASTIC SO)
Analog Integrations Corporation
PIN CONFIGURATION
TOP VIEW
SC 1
7 IPK
TC 3
6 VCC
GND 4
4F, 9 Industry E. 9th Rd, Science-Based Industrial Park, Hsinchu, Taiwan
TEL: 886-3-5772500
FAX: 886-3-5772510
8 DRI
SE 2
www.analog.com.tw
5 FB
DS-34063A-01 012102
1
MC34063A
n ABSOLUTE MAXIMUM RATINGS
Supply Voltage
......................................................… … … … ..................................... 30V
Comparator Input Voltage Range
Switch Collector Voltage
Switch Emitter Voltage
..................................… … … … .................... -0.3V~30V
.......................................… … … … … ......................................30V
..................................… … … … … .............................................30V
Switch Collector to Emitter Voltage
Driver Collector Voltage
Switch Current
.....................… … … … ..........................................30V
.................................… … … … … ............................................30V
............................................… … … … … ..............................................1.6A
Power Dissipation and Thermal Characteristics
DIP Package
TA= 25°C
...............................… … … … .............................1.0W
Thermal Resistance
.................… … … .......................100°C /W
SO Package
TA= 25°C .................................… … … … … .......................625mW
Thermal Resistance
.................… … … .......................160°C /W
Operating Junction Temperature ................................… … … … ..… .............................125°C
Operating Ambient Temperature Range
.................… … ...… ...............................0°C~70°C
Storage Temperature Range .....................… … … … … ....… ........................... - 65°C~150°C
2
MC34063A
n ELECTRICAL CHARACTERISTICS (VCC= 5V, TA=25°C, unless otherwise
specified.)
PARAMETER
TEST CONDITIONS
SYMBOL
MIN.
TYP.
MAX. UNIT
Oscillator
Charging Current
5.0V≤VCC≤30V
ICHG
10
25
40
µA
Discharge Current
5.0V≤VCC≤30V
IDISCHG
100
150
200
µA
Voltage Swing
PIN 3
Discharge to Charge Current
Ratio
VIPK(SENSE) =VCC
Current Limit Sense Voltage
ICHG=IDISCHG
VOSC
0.6
IDISCHG/ ICHG
6.0
VIPK(SENSE)
250
V
300
350
mV
Output Switch
Saturation Voltage,
Darlington Connection
ISW =1.0A;
VC(DRIVER)=VC(SWITCH)
VCE(SAT)
1.0
1.3
V
Saturation Voltage
ISW =1.0A; IC(DRIVER)=50mA
(Forced β≅20)
VCE (SAT)
0.4
0.7
V
DC Current Gain
ISW =1.0A; VCE=5.0V
Collector Off-State Current
VCE=30V
IC(OFF)
Threshold Voltage
TA=25°C
VFB
Threshold Voltage
0°C≤TA≤70°C
Threshold Voltage Line
Regulation
3.0V≤VCC≤30V
Input Bias Current
Supply current
hFE
35
120
10
nA
Comparator
1.227
1.25
1.273
V
1.21
1.29
REGLINE
0.1
0.3
mV/V
VIN=0V
IIB
0.4
1
µA
VIPK(SENSE)=VCC
VPIN 5>VFB
5.0V≤VCC≤30V
CT=0.001µF, PIN 2=GND
Remaining pins open
ICC
1.6
3
mA
3
MC34063A
1000
2
ICC, Supply Current (mA)
VCC=5V
VIPK=VCC
PIN 5=GND
100
ON TIME
10
OFF TIME
1
0.1
10
0.4
0
0
VIPK, Threshold Voltage (mV)
1.24
1.22
10
Fig. 3
20
30
40
50
60
70
80
VCC = 5V
Pin 1, 7, 8=VCC
Pin 3, 5= GND
1.6
1.5
1.4
1.3
1.2
340
15
25
20
30
VCC = 5V
CT=1nF
Pin 5= GND
330
320
310
300
290
280
270
260
250
0
10
20
30
40
50
60
70
80
Temperature (°C)
Temperature (°C)
VFB, Threshold Voltage vs. Temperature
1.8
1.7
10
350
VCC = 5V
CT=1nF
Pin 2= GND
1.26
1.2
0
5
VCC, Supply Voltage (V)
Fig. 2 Standby Supply Current vs. Supply Voltage
Fig. 4 IPK Threshold Voltage vs. Temperature
VCE(SAT) Saturation Voltage (V)
VFB, Threshold Voltage (V)
0.8
CT, Oscillator Timing Capacitor (nF)
Fig. 1 Output Switch ON-OFF Time vs. Oscillator
Timing Capacitor
1.28
CT=1nF
VIPK= VCC
PIN 2=GND
1.2
100
1.3
VCE(SAT) Saturation Voltage (V)
1.6
1
tON-OFF Output Switch ON-OFF Time
n TYPICAL PERFORMANCE CHARACTERISTICS
1.4
1.2
VCC = 5V
Pin 1, 7, 8=VCC
Pin 3, 5= GND
1.0
Darlington Connection
0.8
0.6
0.4
0.2
Forced Beta = 20
0
0
0.5
1
1.5
IE, Emitter Current (A)
Fig. 5 Emmiter-Follower Configuration Output
Switch Saturation Voltage vs. Emmiter Current
0
0.5
1
1.5
IC, Collector Current (A)
Fig. 6 Common-Emitter Configuration Output
Switch Saturation Voltage vs. Collector Current
4
MC34063A
n BLOCK DIAGRAM
1
SC
8
Q2
DRI
QS
Q1
R
80
2
SE
7
IPK
IS
CT
Oscillator
TC
6
3
VCC
Comparator
1.25V
Reference
Voltage
GND
+
5
4
FB
n PIN DESCRIPTIONS
PIN 1: SC
- The switch collector is 1.6A.
PIN 5: FB
PIN 2: SE
- Darlington switch emitter
PIN 6: VCC - Power supply input
PIN 3: TC
- Oscillator timing capacitor
PIN 7: IPK
- Highside current sense input,
VCC - VIPK=300mV
PIN 8: DRI
- Drive collector
PIN 4: GND - Power GND
- Feedback comparator inverting input
5
MC34063A
n APPLICATION INFORMATION
•
DESIGN FORMULA TABLE
CALCULATION
tON
tOFF
STEP-DOWN
STEP-UP
VOLTAGE-INVERTING
VOUT + VF
VIN(MIN) - VSAT - VOUT
VOUT + VF - VIN(MIN)
VIN(MIN) - VSAT
VOUT + VF
VIN - VSAT
1
1
1
FMIN
FMIN
FMIN
(tON + tOFF) MAX
-5
CT
4x10 tON
IC (SWITCH)
2IOUT(MAX)
RS
(
VIN(MIN) - VSAT - VOUT
)tON(MAX)
IC(SWITCH)
IC ( SWITCH) (t ON + t OFF )
8V RIPPLE (P - P )
VSAT - Saturation voltage of the output switch.
VF
- Forward voltage drop of the ringback
rectifier
The following power supply characteristics must
be chosen:
VIN - Nominal input voltage.
VOUT - Desired output voltage,
V OUT =1.25 (1 + RB/RA)
IOUT
2IOUT(MAX) (
0.33/IC(SWITCH)
L(MIN)
Co
-5
- Desired output current.
-5
4 x 10 tON
t ON + t OFF
)
t OFF
4 x 10 tON
2IOUT(MAX) (
0.33/ IC (SWITCH)
(
VIN(MIN) - VSAT
)tON(MAX)
IC(SWITCH)
IOUT tON
VRIPPLE(P - P)
t ON + t OFF
)
t OFF
0.33/ IC (SWITCH)
(
VIN(MIN) - VSAT
)tON(MAX)
IC(SWITCH)
IOUT tON
VRIPPLE(P - P)
FMIN - Minimum
desired
output
switching
frequency at the selected values for VIN
and IOUT.
VRIPPLE (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.
6
MC34063A
n APPLICATION EXAMPLES
VOUT
200µH
L
5V/500mA
+
8
RS
0.25
7
6
VIN
10~20V
C1
5
+
DRI
SC 1
IPK
SE
VCC
TC
D1
1N5821
CO
470µF
2
3
FB
4
GND
RB
470pF
CT
100µF
3K6
RA
1K2
MC34063A
Line Regulation
VIN = 10V ~20V @ IO=500mA
40mV
Load Regulation
VIN = 15V, @ IO=10mA ~ 500mA
5mV
Short Circuit Current
VIN =15V, @ RL = 0.1Ω
1.3A
Fig. 1 Step-Down Converter
R1
1K
SC 1
8 DRI
RS
0.22
VIN
7
6
10~22V
5
+
C1
100µF
IPK
SE
VCC
TC
GND
FB
2
R2
Q1
470
200µH
3
VOUT
5V/500mA
L
+
4
CT
470pF
D1
1N5821
Co
470µF
MC34063A
RA
RB
1K2
3K6
Fig. 2 Step-Down Converter with External PNP Saturation Switch
7
MC34063A
n APPLICATION EXAMPLES (Continued)
D1
200µH
VOUT
L
8
RS
0.22
VIN
8~16V
28V/200mA
GS SS14
R1
100
+ 100µF
C1
DRI
SC
7 IPK
SE
6 VCC
TC
5 FB
GND
CO
220µF
1
+
2
3
4
100pF
CT
MC34063A
RB
RA
47K
2.2K
Line Regulation
VIN = 8V ~16V @ IO=200mA
100mV
Load Regulation
VIN = 12V, @ IO=80mA ~ 200mA
5mV
Fig. 3 Step-Up Converter
D1
L
VOUT
R1
8
7
RS
VIN
6
+
5
C1
RA
DRI
SC 1
IPK
SE
VCC
TC
FB
GND
+
CO
2
Q1
3
R2
4
CT
MC34063A
RB
Fig. 4 Step-Up Converter with External NPN Switch
8
MC34063A
n APPLICATION EXAMPLES (Continued)
1
2
L
100µH
3
4
CT
680pF
D1
1N5819
VOUT
SC
DRI
SE
IPK
8
7
S
RS
0.25
VCC 6
TC
+
FB 5
GND
C1
100µF
VIN
4.5V~6V
MC34063A
-12V/100mA
+
RA
953
CO
470µF
RB
8.2K
Line Regulation
VIN = 4.5V ~6V @ IO=100mA
20mV
Load Regulation
VIN = 5V, @ IO=10mA ~ 100mA
100mV
Fig.5 Inverting Converter
R2
RS
VIN
+
8 DRI
SC 1
7 IPK
SE 2
6 VCC
TC 3
GND 4
5 FB
C1
R1
Q1
L
D1
CT
MC34063A
RA
RB
VOUT
CO
+
Fig 6. Voltage Inverting Converter with PNP Saturated Switch
9
MC34063A
n
PHYSICAL DIMENSIONS
l
8 LEAD PLASTIC SO (unit: mm)
D
SYMBOL
MIN
MAX
A
1.35
1.75
A1
0.10
0.25
B
0.33
0.51
C
0.19
0.25
D
4.80
5.00
E
3.80
4.00
H
E
e
e
A
A1
C
B
l
L
1.27(TYP)
H
5.80
6.20
L
0.40
1.27
8 LEAD PLASTIC DIP (unit: mm)
D
E1
E
A2
A1
MAX
A1
0.381
—
A2
2.92
4.96
b
0.35
0.56
C
0.20
0.36
D
9.01
10.16
E
7.62
8.26
E1
6.09
7.12
e
eB
e
MIN
C
L
b
SYMBOL
2.54 (TYP)
eB
—
10.92
L
2.92
3.81
10
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