AKM AP1010 18v 2ch h-bridge motor driver ic Datasheet

[AP1010AEN]
AP1010
18V 2ch H-Bridge Motor Driver IC
1. General Description
The AP1010 is a 2ch H-Bridge motor driver compatible with motor operating voltage 18V and can drive
two DC motors or one stepping motor. The protection circuit has under voltage lockout circuit, thermal
shutdown circuit, and overcurrent protection circuit, and overcurrent protection circuit can be disabled
with the DIS OCP terminal. The package adopts a small 16-pin QFN package and contributes to
downsize Printed Circuit Board.
2.







Motor Operating Voltage Range
Maximum Output Current (DC)
H-Bridge On-Resistance
Parallel Connection Possible
Under Voltage Lockout Circuit
Thermal Shutdown Circuit
Overcurrent Protection Circuit


Operating Temperature Range
Package
Features
6.0V~18V (Control power supply is unnecessary)
0.7A @Ta=25°C
RON(TOP+BOT) = 1.1Ω @Ta=25°C
Overcurrent protection circuit is disabled
when DIS OCP terminal = “H”
-30°C~85°C
16-pin QFN (3mm×3mm)
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3.
Table of Contents
1.
2.
3.
4.
5.
General Description ............................................................................................................................ 1
Features .............................................................................................................................................. 1
Table of Contents ................................................................................................................................ 2
Block Diagram ..................................................................................................................................... 3
Pin Configurations and Functions ....................................................................................................... 4
5.1 Pin Configurations ........................................................................................................................ 4
5.2 Functions ...................................................................................................................................... 4
6. Absolute maximum Ratings ................................................................................................................ 5
7. Recommended Operating Conditions................................................................................................. 6
8. Electrical Charateristics ...................................................................................................................... 6
9. Functional Descriptions....................................................................................................................... 7
9.1
Operation Outline ......................................................................................................................... 7
9.2
Motor Driver Block Configuration................................................................................................. 8
9.3
Protection Circuits ........................................................................................................................ 9
10.
Recommended External Circuits................................................................................................... 10
■ Driving Stepper Motor ................................................................................................................... 10
■ Driving DC Motor ........................................................................................................................... 10
11.
Package ......................................................................................................................................... 11
11.1 Outline Dimensions.................................................................................................................... 11
11.2 Recommended Land Pattern..................................................................................................... 11
11.3 Marking ...................................................................................................................................... 11
12.
Ordering Guide .............................................................................................................................. 12
13.
Revise History ............................................................................................................................... 12
IMPORTANT NOTICE ......................................................................................................................... 13
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4.
CL
CH
Block Diagram
VG
VM
Charge Pump
VDC
LDO
OSC
UVLO
TSD
LDMOS
OUT1A
H-Bridge
1
OUT1B
GND
H-Bridge
Contorol
Circuit
IN1
IN2
IN3
Control
IN4
Circuit
LDMOS
OUT2A
H-Bridge
2
OUT2B
EN
OCP
EP
DIS OCP
Figure 1. Block Diagram
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5.
Pin Configurations and Functions
CH
15
CL
16
OUT1B
OUT2A
OUT2B
9
(Top View)
Exposed PAD
1
2
3
4
IN4
14
10
IN3
VG
11
IN2
13
12
IN1
VM
OUT1A
5.1 Pin Configurations
8
GND
7
DIS OCP
6
VDC
5
EN
5.2 Functions
Pin
Number
1
2
3
4
5
Pin Name
I/O
Functions
IN1
IN2
IN3
IN4
EN
I
I
I
I
I
Control Signal Input
Control Signal Input
Control Signal Input
Control Signal Input
Enable Signal Input
6
VDC
O
Coupling terminal for internal power supply
7
8
9
10
11
12
13
14
DIS OCP
GND
OUT2B
OUT2A
OUT1B
OUT1A
VM
VG
I
P
O
O
O
O
P
I/O
15
CH
I/O
16
CL
I/O
EP
EP
P
Over current protection function terminal
Ground
Motor Driver Output
Motor Driver Output
Motor Driver Output
Motor Driver Output
Motor Power Supply
Connect Terminal for Stabilizing Capacitor.
Connect Terminal for Charge Pump
Capacitor.
Connect Terminal for Charge Pump
Capacitor.
Ex-posed Pad
Notes
Built-in 200kΩ Pull-down
Built-in 200kΩ Pull-down
Built-in 200kΩ Pull-down
Built-in 200kΩ Pull-down
Built-in 200kΩ Pull-down
Connect a 1.0 μF capacitor
between VDC pin and
GND.
Built-in 200kΩ Pull-down
(Note 2)
Note 1. I(Input pin)、O(Output pin)、 P(Power pin)、I/O(Input/Output pin)
Note 2. Exposed PAD must be connected to GND.
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6.
Parameter
Absolute maximum Ratings
Symbol
min
max
Unit
VM
-0.3
19
V
Vterm1
-0.3
6.0
V
Vterm2
-0.3
V DC
V
Vterm3
-0.3
VM
V
Vterm4
-0.3
24
V
VDC Terminal Voltage
VDC
-0.3
6.0
V
CL Terminal Voltage
VCL
-0.3
V DC
V
-
0.7
A
-
0.5
A
0.5
A/ch
0.35
A/ch
Motor Operating Voltage
Input Terminal Voltage 1
(IN1, IN2, IN3, IN4, EN)
Input Terminal Voltage 2
(DIS OCP)
VM Level Terminal Voltage
(OUTnA, OUTnB)
CH, VG Terminal Voltage
Maximum Output Current
Iload
-
Condition
Ta=25°C, 1ch
(Note 4)
Ta=85°C, 1ch
(Note 4)
Ta=25°C,
2ch simultaneously
(Note 4)
Ta=85°C,
2ch simultaneously
(Note 4)
Ta=25ºC (Note 4, Note 5)
Power Dissipation
PD
1.83
W
Junction Temperature
Tj
150
°C
Storage Temperature
Tstg
-40
150
°C
Note 3. All voltages are for GND = 0V.
Note 4. For Power Dissipation, the output current rating may be limited by duty cycle, Ta, and PCB
board heat sinking design.
Note 5. A 2-layer board is used. R θJA = 60°C/W.
WARNING: Operation at or beyond these limits may result in permanent damage to the device.
Normal operation is not guaranteed at these extremes.
Figure 2. Maximum Power Dissipation
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7.
Recommended Operating Conditions
(Ta=25°C, unless otherwise specified.)
Parameter
Symbol
min
typ
max
Unit
Motor Operating Voltage
VM
6.0
12
18
V
Logic Terminal Voltage
VIO
0
5.5
V
Input Frequency Range
F in
200
kHz
Operating Temperature Range
Ta
-30
85
°C
8.
Parameter
Quiescent Current
VM Quiescent Current at the
time of Power Save
Electrical Charateristics
(Ta=25°C, VM=12V, unless otherwise specified.)
Symbol
Condition
min
typ
max
Unit
I VMOFF
IN=All “L”, EN=”L”
-
-
10
µA
VM Quiescent Current at the
time of Operating
I VM
IN1=IN3=”H”/”L” 200kHz,
IN2=IN4=”L”/”H” 200kHz, EN=”H”,
Open between OUTA and OUTB
-
1.8
3.0
mA
Charge Pump
Charge Pump Voltage
VG
VG=VM+V DC , Iload=0A
-
-
17
V
-
0.6
3.0
ms
I load (1ch/2ch) = 0.1A/0.1A
-
1.1
1.7
Ω
I F = 100mA
-
0.8
1.2
V
-
-
1.0
μs
-
-
1.0
μs
1.0
1.5
μs
4.2
2.0
-
4.65
-
5.0
0.4
V
V
V
-
-
0.6
V
100
-1.0
200
-
1.0
1.0
300
1.0
µs
µs
kΩ
µA
3.85
4.3
4.65
V
135
155
175
°C
-
30
-
°C
1.3
2.6
3.9
A
Charge Pump Rise Time
H-Bridge
Driver on resistance
(H-Bridge High+Low)
H-Bridge Driver
Body diode forward voltage
Delay Time
Output Delay Time (“L”→”H”)
Output Delay Time (“H”→”L”)
Output Pulse Width
tVGON EN=”L”→”H”, C VG =0.1uF
R ON
VF
t PDLH
t PDHL
t PW
Connected to 1kΩ between OUTA
and OUTB. (Figure 3)
Connected to 1kΩ between OUTA
and OUTB.
0.5
Input Pulse Width:1μs (Figure 3)
Control Logic
V DC
VDC Terminal Voltage
Input High Level Voltage
V IH
Input Low Level Voltage (EN)
V IL1
Input Low Level Voltage
V IL2
(IN1, IN2, IN3, IN4, DIS OCP)
Input Pulse Rise Time
tR
Input Pulse Fall Time
tF
Pull-down resistance
R PD
Input Low Level Current
I IL
Protection Circuit
Under Voltage Detect
VM UV
Voltage
Thermal Shutdown
T TSD
Temperature (Note 7)
Temperature Hysteresis
T TSDHYS
(Note 7)
DIS OCP=”L”
Overcurrent protection
I OCP
Note 6. All above voltage is defined to GND=0V.
Note 7. Not tested under mass-production.
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1μs
IN1
50%
IN1
50%
tPDLH
50%
tPDHL
VM
VM
90%
OUT1B
OUT1B
10%
50%
tPW
(a) Delay Time (IN2=”H”)
(b) Pulse Width (IN2=”H”)
Figure 3. Timing Chart(Delay Time, Pulse Width)
9.
9.1
Functional Descriptions
Operation Outline
Table 1. The relationship between input and output in each mode is as follows.
INPUT
OUTPUT
Mode
EN
IN1
IN2
IN3
IN4
OUT1A
OUT1B
OUT2A
OUT2B
L
Hi-Z
Hi-Z
Hi-Z
Hi-Z
Power Save(Note 8)
L
Hi-Z
H
L
Hi-Z
Standby
H
H
H
L
L
CW
L
L
H
H
H
CCW
H
H
H
L
L
Brake
L
Hi-Z
H
L
Hi-Z
Standby
H
H
H
L
L
CW
L
L
H
H
H
CCW
H
H
H
L
L
Brake
Note 8. Charge Pump Block and TSD, UVLO, OCP don’t operate at the Power Save.
Note 9. After inputting "H" to the EN pin, input "H or L" to IN 1 - 4 pin.
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9.2 Motor Driver Block Configuration
The Nch LDMOS FET is placed on both sides of the high side and the low side in the output stage,
making it possible to apply a small package. Hi-side FET is driven by VG. VG = VM + V DC is
generated by the charge pump. Lo-side FET is driven by V DC .
VG
IN1
CH
IN2
IN3
CVG
CHL
Charge
Pump
Control
Pre Driver
CL
Logic
IN4
VM
VG
CVM
EN
OUTnA
VDC
VG
VDC
OUTnB
PGNDn
Figure 4. Driver Block Equivalent circuit
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9.3
Protection Circuits
9.3.1 Under Voltage Lockout (UVLO)
If VM voltage is lower than 4.3V at the starting, the H-Bridge output is the Hi-Z.
9.3.2 Thermal Shutdown(TSD)
When the internal temperature of the IC reaches the
specified temperature (T TSD =155°C), and the H-Bridge
driver outputs Hi-Z. When the internal temperature after
the detection is lowered about 30°C (T TSDHYS ), the
driver resumes operation.
Detection of abnormal heating
↓
OUTnA/OUTnB: Hi-Z
Restart Temperature = T TSD - T TSDHYS
Waiting for Temperature decrease
Hysterisis:30℃typ
Motor Driver restaarts
OUTnA/OUTnB:
IN1~IN4 setting
Figure 5. Detection of abnormal heating
9.3.3 Over current protection (OCP)
When the current of 2.6 A or more continues to flow to the H - Bridge driver for 10 μs, all H - Bridge
driver outputs are set to Hi - Z, and automatically return after 200 ms.
Over current protection circuit can be used by setting the DIS OCP terminal to L level. When not using
the overcurrent protection circuit, connect the DIS OCP terminal to the VDC terminal.
TSD
TTSD
TTSDHYS
Tj
UVLO
VM
VMUV
EN
IN
10us
IOCP
IOUT
OUT
200ms
Hi-Z
Hi-Z
Hi-Z
Hi-Z
Figure 6. Protection Function Timing Chart
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10. Recommended External Circuits


Driving Stepper Motor
VM
CVM1
Driving DC Motor
CHL
CVM2
VM
CVG
VM
CH
CL
CVM1
CHL
CVM2
CVG
VG
VM
CH
VG
CL
OUT1A
OUT1A
OUT1B
VDC
CVDC
M
VDC
M
CVDC
OUT1B
OUT2A
AP1010
IN1
OUT2B
IN1
IN2
IN3
CPU
AP1010
OUT2A
IN2
M
IN3
CPU
IN4
IN4
EN
OUT2B
EN
GND
GND
DIS OCP
DIS OCP
EP
EP
Figure 7. Recommended External Circuits
Table 2. Parts List
Items
Motor driver power connection
capacity(Decoupling capacitor)
Charge pump capacity
Symbol
CVM1
CVM2
CHL
CVG
min
0.047
0.047
typ
10
1
0.1
0.1
max
0.22
0.22
Unit
μF
μF
μF
μF
Note
(Note 10)
Internal power connection
CVDC
0.47
1.0
2.2
μF
capacity (Decoupling capacitor)
Note 10. Capacitance of CVM should be determined in consideration of the load current profile,
the load capacitance, the line resistance and etc. of the actual system board.
Note 11. Please layout the large ground plane on the PCB.
Note 12. Please connect the exposed pad (heat sink) to the ground of the PCB.
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11. Package
11.1 Outline Dimensions
・16-pin QFN (Unit : mm)
Part A
Detail View of part A
11.2 Recommended Land Pattern
・16-pin QFN (Unit : mm)
3.6
2.2
0.22±0.05
1.8
3.6
2.2
1.8
φ0.3
Thermal Via
0.2
The optimum dimensions of the mount pad will
vary depending on the substrate material, solder
paste method, device accuracy, etc. In actual
design, please optimize according to the situation.
11.3 Marking
(2)
1010
YWW A
(1)
(3)
(4)
(5)
(1)
(2)
(3)
(4)
(5)
1pin Indication
Market No.
Year code(last 1 digit)
Week code
Management code
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12. Ordering Guide
AP1010AEN
-30°C~85°C
16-pin QFN
13. Revise History
Date
(YY/MM/DD)
17/07/11
17/11/01
Revision
Page
00
-
01
5
Contents
First Edition
Correction of mistake in Note 5.
A 4-layer board is used.→A 2-layer board is used.
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[AP1010AEN]
IMPORTANT NOTICE
0. Asahi Kasei Microdevices Corporation (“AKM”) reserves the right to make changes to the
information contained in this document without notice. When you consider any use or
application of AKM product stipulated in this document (“Product”), please make inquiries the
sales office of AKM or authorized distributors as to current status of the Products.
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application examples of AKM Products. AKM neither makes warranties or representations
with respect to the accuracy or completeness of the information contained in this document
nor grants any license to any intellectual property rights or any other rights of AKM or any
third party with respect to the information in this document. You are fully responsible for use
of such information contained in this document in your product design or applications. AKM
ASSUMES NO LIABILITY FOR ANY LOSSES INCURRED BY YOU OR THIRD PARTIES
ARISING FROM THE USE OF SUCH INFORMATION IN YOUR PRODUCT DESIGN OR
APPLICATIONS.
2. The Product is neither intended nor warranted for use in equipment or systems that require
extraordinarily high levels of quality and/or reliability and/or a malfunction or failure of which
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3. Though AKM works continually to improve the Product’s quality and reliability, you are
responsible for complying with safety standards and for providing adequate designs and
safeguards for your hardware, software and systems which minimize risk and avoid situations
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6. Resale of the Product with provisions different from the statement and/or technical features
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prior written consent of AKM.
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