ETC MC34063AN

DC-DC Converter Control Circuits
MC34063A
● OUTPUT SWITCH CURRENT IN EXCESS OF
●
●
●
●
●
1.5A
2% REFERENCE ACCURACY
LOW QUIESCENT CURRENT:2.5mA(TYP.)
OPERATING FROM 3V TO 40V
REQUENCY OPERATION TO 100KHz
ACTIVE CURRENT LIMITING
8 SOP/ 8 DIP PIN Configulation
DESCRIPTION
The MC34063A series is a monolithic control
circuit delivering the main functions for DC-DC
voltage converting.
The device contains an intermal temperature
compensated reference, comparator, duty cycle
controlled oscillator with an active current limit
circuit driver and high current output switch.
Output voltage is adjustable through two external
resistors with a 2% reference accuracy.
Employing a minimum number of external
components the MC34063A devices series is
designed for Step-Down, Step-Up and
Voltage-lnverting applications.
Switch
1
Collector
Switch
2
Emitter
8
Drive
Collector
7
Ipk Sense
Timing
3
Capacitor
6
Vcc
Ground
5 - Input
Comparator
4
ORDERING INFORMATION
Device
MC34063AD
MC34063AN
Package
8 SOP
8 DIP
BLOCK DIAGRAM
Drive
Collector
8
s
Q
Q2
1
Switch
Collector
2
Switch
Emitter
3
Timing
Capacitor
4
GND
Q1
R
Ipk Sense
7
Ipk Oscillator
Vcc
6
Comparator
1.25V
Reference
Regulator
+
Comparator
lnverting
input
5
HTC
1
DC-DC Converter Control Circuits
MC34063A
ABSOLUTE MAXIMUM RATINGS
SYMBOL
Vcc
Vir
VSWC
VSWE
VCE
Vdc
Idc
Isw
Ptot
Top
Tstg
PARAMETER
Power Supply Voltage
Comparator input Voltage Range
Switch Collector Voltage
Switch Emitter Voltage (VSWC=40V)
Switch Collector to Emitter Voltage
Driver Collector Voltage
Driver Collector Current
Switch Current
Power Dissipation at Tamb=25℃(for Plastic Package )
(for SOIC Package )
Operating Ambient Temperature Range
VALUE
50
-0.3 to 40
40
40
40
40
100
1.5
1.25
0.625
0 to 70
Storage Temperature Range
-40 to 150
UNIT
V
V
V
V
V
V
㎃
A
W
℃
℃
℃
℃
Absolute Maximum Rating are those values beyond which damage to the device may occur.
Functional operation under these condition is not implied.
THERMAL DATA
SYMBOL
PARAMETER
Rthi-amb Thermal Resistance Junction-ambient (*)
Max
DIP-8
100
SO-8
160
UNIT
℃/w
*
( ) This Value depends from thermal design of PCB on which the device is mounted.
CONNECTION DIAGRAM (top view)
SWC
1
8
IPK
TC
VCC
4
5
PIN NO
1
2
3
4
5
6
7
8
DRC
SWE
GND
PIN CONNECTIONS
CII
SC11080
SYMBOL
SWC
SWE
TC
GND
CII
Vcc
IPK
DRC
NAME AND FUNCTION
Switch Collector
Switch Emitter
Timing Capactor
Ground
Comparator lnverting lnput
Voltage Supply
IPK Sense
Voltage Driver Collector
HTC
2
DC-DC Converter Control Circuits
MC34063A
ELECTRICAL CHARACTERISTICS( Refer to the test circuits, VCC=5V, Ta=TLOW to THIGH, unless
otherwise specified, see note 2)
OSCILLATOR
SYMBOL
FOSC
Ichg
Idischg
Idischg/Ichg
Vipk(sense)
PARAMETER
Frequency
Charge Current
Discharge Current
Discharge to Charge Current Ratio
Current Limit Sense Voltage
TEST CONDITIONS
MIN.
o
Vpin5= 0 V ,CT= 1nF ,Ta= 25 C 24
o
24
VCC= 5 to 40V ,Ta= 25 C
o
140
VCC= 5 to 40V ,Ta= 25 C
o
5.2
Pin 7= VCC ,Ta= 25 C
o
250
Ichg= Idischg ,Ta= 25 C
TYP.
33
33
200
6.2
300
MAX. UNIT
42 KHz
42
㎂
260
㎂
7.5
350 ㎷
TEST CONDITIONS
ISW= 1A ,Pins 1,8 connected
TYP.
1
MAX. UNIT
1.3
V
OUTPUT SWITCH
SYMBOL
PARAMETER
VCE(sat) Saturation Voltage,
Darlington connection
VCE(sat) Saturation Voltage
hFE
IC(off)
DC Current Gain
Collector Off-State Current
ISW= 1A ,Rpin8= 82Ω to VCC,
Forced β ~ 20
ISW= 1A, VCE= 5V, Ta= 25oC
VCE= 40V
MIN.
50
0.45
0.7
V
120
0.01
100
㎂
COMPARATOR
SYMBOL
PARAMETER
Vth
Threshold Voltage
Regline
IIB
Threshold Voltage Line Regulation
Input Bias Current
TEST CONDITIONS
Ta= 25oC
Ta= TLOW to THIGH
VCC= 3 to 40V
VIN= 0V
MIN. TYP.
1.225 1.25
1.21
1
-5
MAX. UNIT
1.275 V
1.29
V
5
㎷
-400 ㎁
TYP.
2.5
MAX. UNIT
4
㎃
TOTAL DEVICE
SYMBOL
PARAMETER
ICC
Supply Current
VSTART-UP Start-up Voltage(note 4)
TEST CONDITIONS
MIN.
VCC= 5 to 40V, CT=1㎋
Pin7= VCC ,Vpin5>Vth, Pin2=GND
Remaining pins open
for MC34063A
Ta= 25oC ,CT=1㎌ ,Pin5= 0V
for MC34063A
2.1
V
Notes:
1) Maximum package power dissipation limit must be observed.
2) TLOW= 0oC, THIGH= 70oC
3) If Darlington configuration is not used, care must be taken to avoid deep saturation of output switch.
The resulting switch-off time may be adversely affected.
In a Darlington configuration the following output driver condition is suggested:
Forced β of output current switch= I COUTPUT/(ICDRIVER-1㎃* )≥10
*
Current less due to a built in 1KΩ antileakage resistor.
4) Start-up Voltage is the minimum Power Supply Voltage at which the internal oscillator begains to work.
HTC
3
DC-DC Converter Control Circuits
MC34063A
TYPICAL ELECTRICAL CHARACTERISTICS
Output Switch ON-OFF Time vs Oscillator
Emitter Follower Configuration Output Saturation
Voltage vs Emitter Current
Timing Capacitor
VCE(sat)
(V)
Ton Toff
(㎲)
1.75
VCC=5V
Pin1,7,8=VCC
Pins3,5=GND
Ta=25℃
1.70
1.65
200
150
1.60
VCC=5V
Pin7=VCC
Pin5=GND
Ta=25℃
Ton
100
1.55
1.50
Toff
50
1.45
1.40
0
0
400
1200
800
IE(㎃)
Common Emitter Configuration Output Switch
Saturation Voltage vs Collector Current
VCE(sat)
(V)
0.1
0.01
CT(㎋)
1
Darlington Configuration Collector Emitter
Saturation Voltage (VCE(sat) ) vs Temperature
VCE(sat)
(㎷)
Darlington Connection
1.0
1000
0.8
950
VCC=5V
Pin7=VCC
Pins2,3,5=GND
Ta=25℃
0.6
0.4
0.2
850
800
0
400
IC=1A
900
Forced β =20
0
VCC=5V
800
1200
750
-40
1C(㎃)
0
80
120
TJ(℃)
Current Limit Sense Voltage Voltage (Vipk) vs
Temperature
Power Collector Emitter Ssturation Voltage
(VCE(sat)) vs Temperature
Vipk
(㎷)
VCE(sat)
(㎷)
600
320
VCC=5V
550
40
MC34063A
IC=1A
310
500
300
450
290
400
280
VCC=5V
350
-40
0
40
80
120
270
-40
TJ(℃)
Ichg=Idischg
0
40
80
120
TJ(℃)
HTC
4
DC-DC Converter Control Circuits
MC34063A
TYPICAL ELECTRICAL CHARACTERISTICS (Continued)
Reference Voltage vs Temperature
Bias Current vs Temperature
Vref
(V)
IBias
(㎁)
1.265
10
VCC=5V
CII to GND
VCC=5V
1.260
8
1.255
6
1.250
4
1.245
2
1.240
-40
0
40
80
120
0
-40
TJ(℃)
Supply Current vs Temperature
ICC
ICC
(㎃)
5
4.0
VCC=5V
CT=1㎋
80
120
TJ(℃)
TJ= 25℃
CT= 1㎋
3.5
3
3.0
2
2.5
1
2.0
0
-40
40
Supply Current vs Input Voltage
(㎃)
4
0
1.5
0
40
80
120
0
TJ(℃)
10
20
30
40 Vin(V)
HTC
5
DC-DC Converter Control Circuits
MC34063A
TYPICAL APPLICATION CIRCUIT
Step-Up Converter
L1
170μH
R3
1
8
180Ω
DRC
SWC
Ipk
SWE
7
Rsc
2
6
Vcc
TC
CII
GND
D1
BYV10-40
3
0.22Ω
5
VIN
12V
+
C2
100㎌
4
C3
VOUT
1.5㎋
25V/175㎃
MC34063A
R1
R2
2.2KΩ
+
C1
44KΩ
330㎌
Step-Down Converter
1
8
DRC
SWC
7
Rsc
Ipk
0.33Ω
SWE
6
Vcc
TC
CII
GND
5
VIN
25V
+
C2
100㎌
BYV10-40
2
D1
3
L
4
C3
220μH
470㎊
MC34063A
R1
R2
1.2KΩ
3.5KΩ
+
C1
VOUT
5V/0.5A
470㎌
HTC
6
DC-DC Converter Control Circuits
MC34063A
Step-Up With External NPN Switch
8
VOUT
1
S
Q2
Q
+
Q1
R
2
7
Rsc
VIN
3
Ipk Oscillator
6
comparator
1.25V
+
4
Reference
-
Regulator
5
Voltage Inverting Converter
1
8
DRC
SWC
7
R3
L1
2
Ipk
SWE
0.22Ω
90μH
6
3
Vcc
TC
5
VIN
4.5V to 5V
+
C2
100㎌
R2
D1
4
CII
GND
BYV10-40
C3
1.5㎋
MC34063A
R1
VOUT
8.2KΩ
953Ω
C1
+
-12V /100㎃
1000㎌
HTC
7
DC-DC Converter Control Circuits
MC34063A
Step-Down With External NPN Switch
8
1
S
Q
Q2
Q1
R
2
7
Rsc
VOUT
3
Ipk Oscillator
+
6
VIN
comparator
1.25V
+
-
4
Reference
Regulator
5
Step-Down With External PNP Switch
8
1
S
Q
Q2
Q1
R
+
VOUT
2
7
Rsc
VIN
3
Ipk Oscillator
6
comparator
+
-
1.25V
4
Reference
Regulator
5
HTC
8
DC-DC Converter Control Circuits
MC34063A
Voltage Inverting With External NPN Switch
8
1
S
Q
Q2
Q1
R
2
7
Rsc
Ipk Oscillator
6
VIN
VOUT
3
+
comparator
1.25V
+
-
4
Reference
Regulator
5
Voltage Inverting With External PNP Saturated Switch
8
1
S
Q2
Q
VOUT
Q1
R
+
2
7
Ipk Oscillator
Rsc
VIN
6
3
comparator
+
-
1.25V
Reference
4
Regulator
5
HTC
9
DC-DC Converter Control Circuits
MC34063A
Dual Output Voltage
+
+12V
GND
8
+
1
S
Q
Q2
-12V
Q1
R
2
7
Rsc
Ipk Oscillator
comparator
6
VIN
3
1.25V
+
-
4
Reference
Regulator
5
Higher Output Power, Higher Input Voltage
+
Isolated from input
+VOUT
-VOUT
8
+
1
S
Q
R
2
7
VIN
Rsc
Ipk Oscillator
6
3
comparator
1.25V
+
-
Reference
4
Regulator
5
HTC
10