MOTOROLA MPC17533

Freescale Semiconductor, Inc.
M
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SMARTMOS
R
MPC17533
Freescale Semiconductor, Inc...
2 Channel H-Bridge Driver IC
MPC17533 is a monolithic type SMOS5AP
SMARTMOS IC built in 2 channel H-Bridge
Driver constituted LDMOSFET, input section
can be directly interfaced from the MCU.
This IC can control 4 mode output function
(Forward, Reverse, Brake, Open) by input logic.
This IC can drive various type of micro motor
and low loss by parallel drive because each
block is very accurate for high speed drive
and independent input/output circuit.
16PIN SVMFP
Pin Connections
Features
- Manufactured by SMOS5AP process technology
- Built in 2 Channel Circuit of H-Bridge Driver
1 OUT1A
- 4 Mode Drive(Forward, Reverse, Brake, Open)
2
VM1
- Direct Interface from the MCU
3
IN1A
- Low ON-Resistance Ron=0.8 ohm(typ)
4
IN1B
- Dual Channel Parallel Drive (Ron=0.8 ohm:typ)
5
VC
- IDR=0.7A (Cont.)
6
OEB
- Low Consumption Power
7
LGND
- Built in Shoot Through Current Prevention Circuit
8 OUT1B
PGND2 16
OUT2A 15
MPC17533
IN2A
14
IN2B
13
VG
12
VM2
11
OUT2B 10
PGND1 9
- Built in Low Voltage Shutdown Circuit
- PWM Control frequency 200kHz(Max.)
- Comes in 16-pin Very Fine Mini-flat Package
(pin pitch : 0.65mm)
(Top View)
*SMARTMOS is a registered trademark of Motorola Inc.
*Specifications in this data sheet may be changed without prior notice.
1
MPC17533 :MAR.19. 2002 REV.0.4
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Block Diagram
VG 12
2
Low voltage
VM1
Detector
5
1 OUT1A
H
Bridge
1
8 OUT1B
IN1A 3
Level Shifter Predriver
Freescale Semiconductor, Inc...
VC
IN1B 4
Control
Logic
OEB 6
9
PGND1
11 VM2
15 OUT2A
IN2A 14
H
Bridge
IN2B 13
2
10 OUT2B
LGND 7
16 PGND2
Each GND pin are connected by Metal line
Function Table
Input
OEB
IN1A
IN2A
Output
IN1B
IN2B
OUT1A
OUT2A
OUT1B
OUT2B
L
L
L
L
L
L
H
L
H
L
L
L
H
L
H
L
H
H
Z
Z
H
X
X
Z
Z
Z : High impedance
X : Don't care
Pin6(OEB) is Pull-Up by internal resistance.
2
MPC17533 :MAR.19. 2002 REV.0.4
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Maximum Ratings
*1
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Rating
Symbol
Min.
Max.
Unit
Driver Circuit Power Supply Voltage
VM
- 0.5
8.0
V
Pre-Driver Circuit Power Supply Voltage
VG
- 0.5
14.0
V
Control Circuit Power Supply Voltage
VC
- 0.5
7.0
V
Singnal Input Voltage
VIN
- 0.5
VC+0.5
V
Driver Output Current (continuous)
IDR
---
0.7
A
Driver Output Current (pulsed)
IDRp
---
1.4
A
Tj
- 55
150
degC
Storage Temperature Range
Tstg
---
150
degC
Thermal Resistance
ROja
*2
Operating Junction Temperature
Power Dissipation
*3
*4
degC./W
150
PD
---
830
mW
*1) Device may be damaged when used over the ratings.
*2) Ta=25C, Peak time is within 10ms at intervals 0.2seconds.
*3) 37 X 50 X 1.6[mm] Glass EPOXY Board mount.
*4) Ta=25C
Recommended Operating Condition
Characteristics
Symbol
Min.
Typ.
Max.
Unit
Driver Circuit Power Supply Voltage
VM
2.0
5.0
6.8
V
Control Circuit Power Supply Voltage
VC
2.7
5.0
5.7
V
Signal Input Voltage
VIN
0
---
VC
V
Pulse Input Frequency
FIN
---
---
200
kHz
Input Pulse Rise Time
TR
---
---
1.0
us
Input Pulse Fall Time
TF
---
---
1.0
us
Topr
-20
25
65
degC
0.01
0.1
1.0
uF
12
13
13.5
V
Operating Ambient Temperature
Capacitor for Charge Pump
C1,C2,C3
Pre-Driver Circuit Power Supply Voltage
VG
3
MPC17533 :MAR.19. 2002 REV.0.4
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DC CHARACTERISTICS
(Ta=25C, VC=VM=5.0V, GND=0V )
Symbol
Characteristics
Min.
Typ.
Max.
Unit
Test
circuit
Quiescent Power Supply Current
Driver Circuit Power Supply Current
IMO
---
---
1.0
uA
Control Circuit Power Supply Current
Pre-Driver CircuitPower Supply Current
ICO
IGO
-----
-----
20
150
UA
UA
IC
IG
-----
-----
3.0
0.7
mA
mA
VIH
VIL
VCx0.7
-----
--VCx0.3
V
V
---
1.0
A
*1
E
*2
B
*3
*4
Active Power Supply Current
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Control Circuit Power Supply Current
Pre-Driver Circuit Power Supply Current
Logic Input Function
High Level Input Voltage
Low Level Input Voltage
High Level Input Current
Low Level Input Current
OEB pin
Driver Output ON Resistance
Low Voltage Detection Circuit
Detection Voltage
IIH
-----
IIL
IIL
- 1.0
---
---
---
50
100
uA
uA
uA
RON
---
0.8
1.2
ohm
C
VCDET
1.5
2.0
2.5
V
D
*6
*1) ICO includes current to the pre-driver circuit.
*2) IC includes current to the pre-driver circuit. IC:Fin100kHz. IG:Fin20kHz.
*3) 2.7V < VC < 5.7V
*4) IDR=0.7[A] source+sink
*5) When no input logic signal.
*6) Detection voltage is defined output become High-impedance when VC voltage is dropped.
When the gate voltage VG is applied from an external source, VG=7.5[V]
AC CHARACTERISTICS
(Ta=25C, VC=VM=5.0V, GND=0V )
Characteristics
Symbol
Output Propagation Delay Time
Turn-ON time
Turn-Off time
tPLH
tPHL
Low Voltage Detection Circuit
Detection time
tVCDET
tPLH,tPHL Timing Chart
Min.
Typ.
-----
---
Unit
0.1
0.1
0.5
0.5
us
us
C
---
10
ms
D
tVCDET Timing Chart
VCDETon
IN1,IN2
50%
Test
circuit
Max.
VC
50%
2.5
50%
VCDEToff
50%
1.5
tPLH
OUTA,OUTB
tVCDETon
tPHL
tVCDEToff
90%
90%
IM
10%
0%(<1uA)
4
MPC17533 :MAR.19. 2002 REV.0.4
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Pin Description
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Symbol
PIN No.
VC
5
VM1
2
OUT1A
1
OUT1B
8
PGND1
9
VM2
11
OUT2A
15
OUT2B
10
PGND2
16
IN1A
3
IN1B
4
IN2A
14
IN2B
13
Simplified Circuit Schematic
Function
5
Control Circuit
Power Supply Pin
2
Driver Power Supply
Voltage Input Pin
1
8
Driver Output Pin
Driver Output Pin
9
Power GND Pin
11
Driver Power Supply
Voltage Input Pin
15
10
Driver Output Pin
Driver Output Pin
16
Power GND Pin
VC
3
4
Control Signal
13 14
Input Pin
VC
OEB
6
Enable Control
6
Signal Input Pin
VG
12
LGND
7
Pre-Driver Circuit Power Supply Pin
ControlCircuit GND Pin
5
MPC17533 :MAR.19. 2002 REV.0.4
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Test Circuit
5V 5V
13V
IGO A ICO A
VC
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VG
13V 5V
A
IMO
VM
VG
IN1A
VC
IN2B
OEB
IN2B
OEB
MPC17533
OUT2A
OUT2B
PGND/LGND
Test Circuit A
VM
VIN
OUT1B
PGND/LGND
VC
A IIN
OUT1A
OUT2A
OUT2B
VG
IN1A
IN1B
IN2A
OUT1A
OUT1B
5V
VM
IN1B
IN2A
MPC17533
13V 5V
5V
V
Test Circuit B
IN1A
IN1B
IN2A
IN2B
OEB
MPC17533
OUT1A
OUT1B
R=8 [ohm]
OUT2A
OUT2B
PGND/LGND
R=8 [ohm]
Test Circuit C
6
MPC17533 :MAR.19. 2002 REV.0.4
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Test Circuit
13V
5V
5V
5V
A
VG
VC
VM
VC
IN1A
IN1B
VM
IN1A
IN1B
Freescale Semiconductor, Inc...
IN2A
MPC17533
IN2B
OEB
V
For IG Test
OUT1A
OUT1A
13V
OUT1B
OUT1B
A
OUT2A
OUT2B
MPC17533
IN2A
IN2B
OEB
OUT2A
VG
V
PGND/LGND
Test Circuit D
100kHz
Fin
OUT2B
PGND/LGND
Test Circuit E
7
MPC17533 :MAR.19. 2002 REV.0.4
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Precautions on Application
(1)When applying the gate voltage VG from an external source, be sure to connect it via a
resistor equal to or greater than RG=VG/0.02[ohm]. However, this resistance is unnecessary
if you are connecting a charge pump output from a SMARTMOS product.
VG < 14[V]
VG
RG > VG/0.02[ohm]
MPC17533
Freescale Semiconductor, Inc...
CG = 0.01[uF]
C2H
C1H
C2L
C1L
OPEN
(2)Switching from the state of active current loading to high-impedance mode, indactance load
and P.C.B. layout may induce over maximum ratings to a power supply pin. Zener diode or
capacitor at VM pin will protect kick back voltage(it depends on the indactance load).
The schottky diode at output pin will also protect it.
VM
VM
OUTA
OUTA
OUTB
OUTB
(3)Connect a capacitor of sufficient capacitance between the power supply and ground pins.
For all large-current paths, use sufficiently wide copper conductor patterns and route them
in the shortest distance possible.
(4)When using SMARTMOS products in your circuit design, make sure they are fully protected
against static charge.
8
MPC17533 :MAR.19. 2002 REV.0.4
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■ 16 ピン SVMFP 外形寸法図
D
D1
C
Ａ部拡大図
θ
A
A1
Freescale Semiconductor, Inc...
b
L
y
x
Z1
e
SPEC
MIN
TYP
MAX
A
*****
1.95
2.05
A1
0.10
0.15
0.20
ｂ
C
0.25
0.30
0.35
0.18
0.20
0.25
D
*****
D1
5.20
5.25
5.45 MAX
5.30
e
0.60
0.65
0.70
E
5.25
5.30
5.35
He
7.70
7.90
8.10
L
0.45
0.60
0.75
L1
1.20
1.30
1.40
ｘ
*****
*****
0.12
ｙ
Z1
0.25
0.35
0.47
θ
0.0°
4.0°
9.8°
0.05
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L1
He
E
A
Freescale Semiconductor, Inc...
Freescale Semiconductor, Inc.
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権利に基づくライセンスを許諾するものでもありません。当社の製品は、外科的に人体に移植することを意図したシステムの構成
部品として、または、他の生命維持を意図した用途に、または、当社の製品の不具合により人体に危害を加えたり死に至らしめる
かもしれない状況が発生するような用途に使用するために、設計、意図または許可されているものではありません。購入者が万一
このような意図または許可されていない用途のために当社の製品を購入あるいは使用する場合、購入者は当社およびその役員、従
業者、子会社、関連会社、代理店に対し、直接または間接を問わず、当該使用に関連した傷害や死についてのすべての申し立て
（たとえ、当社が部品の設計や製造において不注意であったという主張であったとしても）から生ずるすべての請求、費用、損害、
および相当の弁護士費用を補償し、被害が及ばないようにするものとします。
SPS.
TSPG.
GAO
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