AZ34063CM-E1 [BCDSEMI]
0.8A STEP-DOWN/STEP-UP/INVERTING DC-DC CONVERTER; 0.8A降压/升压/负输出DC -DC转换器型号: | AZ34063CM-E1 |
厂家: | BCD SEMICONDUCTOR MANUFACTURING LIMITED |
描述: | 0.8A STEP-DOWN/STEP-UP/INVERTING DC-DC CONVERTER |
文件: | 总13页 (文件大小:298K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Data Sheet
0.8A STEP-DOWN/STEP-UP/INVERTING DC-DC CONVERTER
AZ34063C
General Description
Features
The AZ34063C is a monolithic switching regulator
control circuit which contains the primary functions
required for DC-DC converters. This device consists
of internal temperature compensated reference, voltage
comparator, controlled duty cycle oscillator with active
current limit circuit, driver and high current output
switch.
•
•
•
•
•
•
Operation from 3.0V to 36V Input
Low Standby Current
Current Limiting
Output Switch Current to 0.8A
Output Voltage Adjustable
Operation Frequency up to 180KHz (C =100pF)
T
•
Precision 2% Reference
The AZ34063C is specifically designed as a general
DC-DC converter to be used in Step-Down, Step-Up
and Voltage-Inverting applications with a minimum
number of external components.
Applications
·
Battery Chargers
ADSL Modems
·
·
·
Hubs
The AZ34063C is available in 2 packages: SOIC-8 and
DIP-8.
Negative Voltage Power Supplies
SOIC-8
DIP-8
Figure 1. Package Types of AZ34063C
BCD Semiconductor Manufacturing Limited
Sep. 2006 Rev. 1. 3
1
Data Sheet
0.8A STEP-DOWN/STEP-UP/INVERTING DC-DC CONVERTER
AZ34063C
Pin Configuration
P/M Package
(DIP-8/SOIC-8)
Switch
Collector
Driver
Collector
1
8
Switch
Emitter
Timing
2
3
4
7
6
5
IPK Sense
VCC
Capacitor
GND
Comparator
Inverting Input
Top View
Figure 2. Pin Configuration of AZ34063C
Functional Block Diagram
8
1
Driver
Switch
Collector
Collector
B
A
S
R
Q
Switch
Emitter
7
6
2
3
I
PK Sense
I
PK
C
T
OSC
Timing
Capacitor
VCC
1.25V
Reference
Regulator
+
-
Comparator
Inverting
Input
5
4
GND
Figure 3. Functional Block Diagram of AZ34063C
BCD Semiconductor Manufacturing Limited
Sep. 2006 Rev. 1. 3
2
Data Sheet
0.8A STEP-DOWN/STEP-UP/INVERTING DC-DC CONVERTER
AZ34063C
Pin Description
Pin Number
Pin Name
Switch Collector
Switch Emitter
Timing Capacitor
GND
Function
Internal switch transistor collector
Internal switch transistor emitter
1
2
3
4
5
6
Timing Capacitor to control the switching frequency
Ground pin for all internal circuits
Inverting input pin for internal comparator
Voltage supply
Comparator Inverting Input
VCC
Peak Current Sense Input by monitoring the voltage drop
across an external current sense resistor to limit the peak cur-
rent through the switch
I
PK Sense
7
8
Driver Collector
Voltage driver collector
Ordering Information
AZ34063C
-
E1: Lead Free
Blank: Tin Lead
Circuit Type
TR: Tape and Reel
Blank: Tube
Package
M: SOIC-8
P: DIP-8
Part Number
Marking ID
Temperature
Package
Packing Type
Range
Tin Lead
AZ34063CM
Lead Free
Tin Lead
34063CM
Lead Free
34063CM-E1
34063CM-E1
AZ34063CP-E1
AZ34063CM-E1
Tube
Tape & Reel
Tube
-40 to 85oC
-40 to 85oC
SOIC-8
DIP-8
AZ34063CMTR AZ34063CMTR-E1 34063CM
AZ34063CP AZ34063CP-E1 AZ34063CP
BCD Semiconductor's Pb-free products, as designated with "E1" suffix in the part number, are RoHS compliant.
BCD Semiconductor Manufacturing Limited
Sep. 2006 Rev. 1. 3
3
Data Sheet
0.8A STEP-DOWN/STEP-UP/INVERTING DC-DC CONVERTER
AZ34063C
Absolute Maximum Ratings (Note 1)
Parameter
Symbol
VCC
Value
40
Unit
V
Power Supply Voltage
Comparator Input Voltage Range
Switch Collector Voltage
Switch Emitter Voltage (VPIN 1=40V)
Switch Collector to Emitter Voltage
Driver Collector Voltage
Driver Collector Current (Note 2)
Switch Current
VIR
-0.3 to 40
40
V
VC(switch)
VE(switch)
VCE(switch)
VC(driver)
IC(driver)
ISW
V
40
V
40
V
40
V
100
mA
A
0.8
DIP-8
SOIC-8
DIP-8
1.25
780
W
mW
PD
Power Dissipation (TA=25 ℃ )
100
RθJA
Thermal Resistance
℃ /W
SOIC-8
160
Operating Junction Temperature
Lead Temperature (Soldering, 10s)
Storage Temperature Range
ESD (Human body model)
TJ
150
℃
℃
℃
V
TLEAD
TSTG
260
-65 to 150
2000
Note 1: Stresses greater than those listed under "Absolute Maximum Ratings" may cause permanent damage to the device.
These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated
under "Recommended Operating Conditions" is not implied. Exposure to "Absolute Maximum Ratings" for extended periods
may affect device reliability.
Note 2: Maximum package power dissipation limits must be observed.
Recommended Operating Conditions
Symbol
Parameter
Min
3
Max
36
Unit
VCC
Supply Voltage
Ambient Temperature
V
o
TA
-40
85
C
BCD Semiconductor Manufacturing Limited
Sep. 2006 Rev. 1. 3
4
Data Sheet
0.8A STEP-DOWN/STEP-UP/INVERTING DC-DC CONVERTER
AZ34063C
Electrical Characteristics
o
(V =5.0 V, T =-40 to 85 C, unless otherwise specified.)
CC
A
Parameter
Symbol
Conditions
Min Typ Max Unit
OSCILLATOR
C =1.0nF
30
38
45
KHz
V
=0V,
o
T
PIN5
f
Frequency
OSC
T =25 C
A
C =330pF
75
30
88
38
100
45
KHz
µA
T
o
Charge Current
I
CHG
V
V
=5.0V to 36 V, T =25 C
CC
CC
A
o
Discharge Current
I
180
240
290
µA
DISCHG
=5.0V to 36V, T =25 C
A
Discharge to Charge
Current Ratio
o
I
/I
5.2
6.5
7.5
Pin 7 to V , T =25 C
DISCHG CHG
CC
A
Current Limit Sense
Voltage
o
V
(sense)
250
300
350
mV
I
=I
, T =25 C
IPK
CHG DISCHG A
OUTPUT SWITCH (Note 3)
Saturation Voltage,
Dalington Connection
I
=0.8A, Pins 1, 8 connected,
SW
V
(sat)
1.0
1.3
0.8
V
V
CE
Common Emitter
Saturation Voltage (Note 4)
I
=0.8 A, R
=82 Ω to V
,
CC
SW
PIN8
V
(sat)
0.45
CE
Forced β=20, Common Emitter
o
DC Current Gain
h
50
75
FE
I
=0.8A, V =5.0V, T =25 C
SW
CE
A
Collector Off-State Current
I (off)
V
=36V
0.01
100
µA
C
CE
COMPARATOR
o
1.225 1.250 1.275
1.21 1.250 1.29
T =25 C
A
V
Threshold Voltage
V
TH
o
T =-40 to 85 C
A
Threshold Voltage Line
Regulation
1.4
-20
5
mV
nA
R
V
=3.0V to 36V
CC
EGLINE
Input Bias Current
I
V =0V
-400
IB
IN
TOTAL DEVICE
V
V
V
=5.0V to 36V, C =1.0 nF,
T
CC
I
Supply Current
4
mA
=V , V
> V
,
TH
CC
PIN7
PIN2
CC
PIN5
=GND, other pins open
Note 3: Low duty cycle pulse technique are used during test to maintain junction temperature as close to ambient temperature
as possible.
Note 4: If the output switch is driven into hard saturation (non-Darlington configuration) at low switch currents (≤ 300mA) and
high driver currents (≥ 30mA), it may take up to 2.0us for it to come out of saturation. This condition will shorten the off time
at frequencies 30KHz, and is magnified at high temperatures. This condition does not occur with a Darlington configuration,
since the output switch cannot saturate. If a non-Darlington configuration is used, the following output drive condition is rec-
ommended:
BCD Semiconductor Manufacturing Limited
Sep. 2006 Rev. 1. 3
5
Data Sheet
0.8A STEP-DOWN/STEP-UP/INVERTING DC-DC CONVERTER
AZ34063C
Electrical Characteristics (Continued)
I output
C
Forced
β of output switch:
≥ 10
I driver - 7.0mA*
C
* The 100Ω resistor in the emitter of the driver device requires about 7.0 mA before the output switch conducts.
Typical Performance Characteristics
1000
VCC=5.0V
V
PIN7=VCC
VPIN5=GND
TA=25OC
ton
100
10
1
toff
Pin 1,5,8=open
V
V
V
=5.0V
CC
C =1.0nF
T
=V
PIN7
PIN2
CC
o
T =25 C
=GND
A
0.1
1
10
100
CT, Oscillator Timing Capacitor (nF)
Time. 10µs/DIV
Figure 4. Output Switch On-Off Time vs.
Oscillator Timing Capacitor
Figure 5. Timing Capacitor Waveform
3.5
3.0
2.5
2.0
1.5
1.0
0.5
VCC=5.0V
100
10
1
V
PIN7=VCC
VPIN5=GND
TA=25OC
CT=1.0nF
VPIN7=VCC
VPIN2=GND
0
5
10
15
20
25
30
35
40
0.1
1
10
100
CT, Oscillator Timing Capacitor (nF)
VCC. Supply Voltage (V)
Figure 7. Standby Supply Current vs. Supply Voltage
Figure 6. Oscillator Frequency vs.Timing Capacitor
BCD Semiconductor Manufacturing Limited
Sep. 2006 Rev. 1. 3
6
Data Sheet
0.8A STEP-DOWN/STEP-UP/INVERTING DC-DC CONVERTER
AZ34063C
Typical Performance Characteristics (Continued)
1.2
1.1
1.0
0.9
0.8
0.7
0.6
0.5
0.4
0.3
0.2
0.1
0.0
-0.1
1.65
1.60
1.55
1.50
1.45
1.40
1.35
Darlington Connection
Forced β=20
VCC=5.0V
PIN1,7,8=VCC
VPIN3,5=GND
TA=25OC
VCC=5.0V
VPIN7=VCC
VPIN2,3,5=GND
TA=25OC
V
0.0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1.0
0.0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1.0
1.1
Collector Current (A)
Emitter Current (A)
Figure 8. Emitter Follower Configuration Output
Saturation Voltage vs. Emitter Current
Figure 9. Common Emitter Configuration Output Switch
Saturation Voltage vs. Collector Current
300
295
290
285
280
275
270
265
260
255
250
-60
-40
-20
0
20
40
60
80
100
120
140
Temperature (OC)
Figure 10. Current Limit Sense Voltage vs. Temperature
BCD Semiconductor Manufacturing Limited
Sep. 2006 Rev. 1. 3
7
Data Sheet
0.8A STEP-DOWN/STEP-UP/INVERTING DC-DC CONVERTER
AZ34063C
Typical Applications
L1 220µH
R3 180
1
8
B
A
S
R
Q
2
7
6
I
D1
1N5819
PK
Rsc
0.4
C
T
OSC
VIN 12V
3
4
+
CT
470pF
C1
100µF
1.25V
Reference
Regulator
+
-
5
L2 1.0µH
U1 AZ34063C
VOUT
28V/175mA
C2
VOUT
R1 47k
+
+
C3
100 µF
R2
2.2k
Optional
Filter
330 µF
Figure 10. Step-Up Converter (Note 5)
Note 5: This is a typical step-up converter configuration. In the steady state, if the resistor divider voltage at pin
5 is greater than the voltage in the non-inverting input, which is 1.25V determined by the internal reference, the
output of the comparator will go low. At the next swithching period, the output switch will not conduct and the
output voltage will eventually drop below its nominal voltage until the divider voltage at pin 5 is lower than 1.25V.
Then the output of the comparator will go high, the output switch will be allowed to conduct. Since VPIN5=VOUT
*
R2/(R1+R2)=1.25(V), the output voltage can be decided by VOUT=1.25 * (R1+R2)/R2 (V).
BCD Semiconductor Manufacturing Limited
Sep. 2006 Rev. 1. 3
8
Data Sheet
0.8A STEP-DOWN/STEP-UP/INVERTING DC-DC CONVERTER
AZ34063C
Typical Applications (Continued)
8
1
B
A
S
R
Q
7
6
2
3
I
PK
Rsc
0.33
D1
1N5819
C
T
OSC
L1
220 µH
VIN 25V
+
C1
100µF
CT
470 pF
1.25V
Reference
Regulator
+
-
4
5
L2 1.0 µH
U1 AZ34063C
VOUT
VOUT
5V/500mA
R1 3.6k
+
+
C2
470 µF
C3
100 µF
R2
1.2k
Optional
Filter
Figure 11. Step-Down converter (Note 6)
Note 6: This is a typical step-down converter configuration. The working process in the steady state is similar to
step-up converter, VPIN5=VOUT*R2/(R1+R2)=1.25 (V), the output voltage can be decided by VOUT=1.25*
(R1+R2)/R2 (V).
BCD Semiconductor Manufacturing Limited
Sep. 2006 Rev. 1. 3
9
Data Sheet
0.8A STEP-DOWN/STEP-UP/INVERTING DC-DC CONVERTER
AZ34063C
Typical Applications (Continued)
8
1
B
A
S
R
Q
2
3
7
L1
88 µΗ
I
PK
Rsc
0.24
C
T
OSC
6
VIN
4.5-6V
+
1.25V
Reference
Regulator
C1
100 µF
CT
470pF
+
D1
1N5819
-
5
4
U1 AZ34063C
L2 1.0 µH
VOUT
VOUT
-12V/100mA
C2
1000 µF
R1 953
C3
100 µF
+
+
R2
Optional
Filter
8.2k
Figure 12. Voltage Inverting Converter (Note 7)
Note 7: This is a typical inverting converter configuration. The working process in the steady state is similar to
step-up converter, the difference in this situation is that the voltage at the non-inverting pin of the comparator is
equal to 1.25V+VOUT, then VPIN5=VOUT*R2/(R1+R2)=1.25V+VOUT, so the output voltage can be decided by
VOUT=-1.25*(R1+R2)/R1 (V).
BCD Semiconductor Manufacturing Limited
Sep. 2006 Rev. 1. 3
10
Data Sheet
0.8A STEP-DOWN/STEP-UP/INVERTING DC-DC CONVERTER
AZ34063C
Mechanical Dimensions
SOIC-8
Unit: mm(inch)
4.700(0.185)
0.320(0.013)
1.350(0.053)
1.750(0.069)
5.100(0.201)
0.675(0.027)
0.725(0.029)
D
5.800(0.228)
6.200(0.244)
1.270(0.050)
TYP
D
20:1
φ
0.800(0.031)
0.200(0.008)
0.100(0.004)
0.300(0.012)
0°
8°
1.000(0.039)
3.800(0.150)
4.000(0.157)
0.190(0.007)
0.250(0.010)
1°
5°
0.330(0.013)
0.510(0.020)
0.900(0.035)
)
006
(0.
50
.1
R0
0.450(0.017)
0.800(0.031)
BCD Semiconductor Manufacturing Limited
Sep. 2006 Rev. 1. 3
11
Data Sheet
0.8A STEP-DOWN/STEP-UP/INVERTING DC-DC CONVERTER
AZ34063C
Mechanical Dimensions (Continued)
DIP-8
Unit: mm(inch)
0.700(0.028)
7.620(0.300)TYP
5°
1.524(0.060) TYP
6°
3.200(0.126)
3.600(0.142)
3.710(0.146)
4.310(0.170)
0.510(0.020)MIN
3.000(0.118)
3.600(0.142)
0.204(0.008)
0.360(0.014)
0.254(0.010)TYP
8.200(0.323)
9.400(0.370)
2.540(0.100)TYP
0.130(0.005)MIN
0.360(0.014)
0.560(0.022)
6.200(0.244)
6.600(0.260)
R0.750(0.030)
Φ3.000(0.118)
Depth
0.100(0.004)
0.200(0.008)
9.000(0.354)
9.400(0.370)
BCD Semiconductor Manufacturing Limited
Sep. 2006 Rev. 1. 3
12
http://www.bcdsemi.com
IMPORTANT NOTICE
BCD Semiconductor Manufacturing Limited reserves the right to make changes without further notice to any products or specifi-
cations herein. BCD Semiconductor Manufacturing Limited does not assume any responsibility for use of any its products for any
particular purpose, nor does BCD Semiconductor Manufacturing Limited assume any liability arising out of the application or use
of any its products or circuits. BCD Semiconductor Manufacturing Limited does not convey any license under its patent rights or
other rights nor the rights of others.
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- IC Design Group
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Tel: +86-21-6485 1491, Fax: +86-21-5450 0008
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Tel: +86-21-6495 9539, Fax: +86-21-6485 9673
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Shanghai SIM-BCD Semiconductor Manufacturing Co., Ltd. Shenzhen Office
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