Sanyo LB11988HR Fan motor driver Datasheet

Ordering number : ENA0300
LB11988HR
Monolithic Digital IC
Fan Motor Driver
Overview
The LB11988HR is a motor driver IC optimal for driving the automotive fan motors.
Features
• 3-Phase full-wave current-linear drive system.
• Current limiter circuit built in.
• Output stage upper/lower over-saturation prevention circuit built in.
• Forward/backward rotation direction setting circuit built in.
• FG amplifier built in.
• Thermal shutdown circuit built in.
Absolute Maximum Ratings at Ta = 25°C
Parameter
Symbol
Maximum supply voltage
Conditions
Ratings
Unit
VCC max
24
V
VS max
24
V
Maximum output current
IO max
Allowable power dissipation
Pd max
Independent IC
1.3
A
0.8
W
Operating temperature range
Topr
-40 to +85
°C
Storage temperature range
Tstg
-55 to +150
°C
Allowable Operating Range at Ta = 25°C
Parameter
Supply voltage
Hall input amplitude
Symbol
Conditions
Ratings
Unit
VS
5 to 22
VCC
5 to 22
VHALL
Between hall inputs
±30 to ±80
V
mVo-p
Any and all SANYO Semiconductor products described or contained herein do not have specifications
that can handle applications that require extremely high levels of reliability, such as life-support systems,
aircraft's control systems, or other applications whose failure can be reasonably expected to result in
serious physical and/or material damage. Consult with your SANYO Semiconductor representative
nearest you before usingany SANYO Semiconductor products described or contained herein in such
applications.
SANYO Semiconductor assumes no responsibility for equipment failures that result from using products
at values that exceed, even momentarily, rated values (such as maximum ratings, operating condition
ranges, or other parameters) listed in products specifications of any and all SANYO Semiconductor
products described or contained herein.
83006 / 52506 MH IM B8-7845 No.A0300-1/8
LB11988HR
Electrical Characteristics at Ta = 25°C, VCC = 12V, VS = 12V
Parameter
Symbol
Ratings
Conditions
min
VCC supply current
ICC
RL = 560Ω (Y)
VOsat1
IO = 500mA, Rf = 0.5Ω,
typ
unit
max
15
24
2.1
2.6
2.6
3.5
mA
Output
Output saturation voltage
Sink+Source (with saturation prevention)
V
VOsat2
IO = 1.0A, Rf = 0Ω,
Sink+Source (with saturation prevention)
Output leakage current
IOleak
1.0
mA
+6
mV
3
µA
Hall amplifier
Input offset voltage
Voff(HALL)
Input bias current
Ib(HALL)
VIN, WIN
Common-mode input voltage
Vcm1(HALL)
VCC = VS = 12V
Vcm2(HALL)
VCC = VS = 5V
-6
1
3
VCC-3
1.5
VCC-1.5
8
V
FR
Threshold voltage
VFRTH
4
Input bias current
Ib(FR)
-5
V
µA
Current limit
LIM pin current limit level
ILIM
Rf = 0.5Ω, Hall input logic fixed
(U, V, W = H, H, L)
1
A
0.28
V
Saturation
Saturation prevention circuit
VOsat(DET)
RL = 560Ω (Y),Rf = 0.5Ω
Voltage between each OUT and RF
lower set voltage
FG Amplifier
Output “High” voltage
Vfgoh(SH)
Output “Low” voltage
Vfgol(SH)
Hysteresis width
Vhys
TSD operating temperature
TTSD
11.8
V
0.3
Design target value*
23
mV
170
°C
*: T-TSD is not measured because it stands for design target.
Package Dimensions
unit : mm
3233B
HEAT SPREADER
15.2
(6.2)
0.65
7.9
10.5
15
(4.9)
28
1
14
0.8
0.25
2.7
2.45max
0.3
(2.25)
2.0
0.1
(0.8)
SANYO : HSOP28H(375mil)
No.A0300-2/8
LB11988HR
Pd max - Ta
Allowable Power Dissipation,Pd max - W
1.0
Independent IC
0.8
0.8
0.6
0.42
0.4
0.2
0
-40
-20
0
20
40
60
Ambient Temperature, Ta- °C
80
100
ILB01758
Truth Table and Control Function
Source → Sink
1
2
3
4
5
6
V→W
W→V
U→W
W→U
U→V
V→U
W→V
V→W
W→U
U→W
V→U
U→V
Hall Input
FR
U
V
W
H
H
L
H
L
H
L
L
H
L
H
L
H
H
L
L
L
H
H
L
L
H
H
H
L
L
H
L
Note: “H” in the FR column represents a voltage
of 8V or more. “L” represents a voltage of
4V or less. (At VCC=12V)
Note: “H” under the Hall Input columns
represents a state in which “+” has a
potential which is higher by 0.01V or more
than that of the “-“ phase inputs. Conversely
“L” represents a state in which “+” has a
potential which is lower by 0.01V or more
than that of the “-” phase inputs.
Note: Since a 180° energized system is used as
a drive system, other phases than the sink and
source are not OFF.
H
L
No.A0300-3/8
LB11988HR
Pin Assignment
WOUT 1
28
VOUT
NC 2
27
UOUT
NC
3
26
NC
FGOUT
4
25
NC
NC
5
24
NC
FR
6
23
RF
GND
7
22
VS
LB11988HR
NC
8
21
VCC
FC
9
20
NC
NC 10
19
WIN-
NC 11
18
WIN+
UIN+ 12
17
VIN-
UIN-
13
16
NC
VIN+
14
15
NC
Top view
No.A0300-4/8
LB11988HR
Pin Functions
Pin Name
VCC
Pin
Input/Output Equivalent Circuit
No.
Pin Functions
21
Power supply pin for supplying power to
all circuits expect output section in IC;
this voltage must be stabilized so as to
eliminate ripple and noise.
GND
7
GND for others than the output transistor.
FRAME
Minimum potential of output transistor is
at RF pin.
UIN+, UIN-
12,13
Each (-) input
Each (+) input
19
18
14,17
14
12
WIN+,WIN-
200Ω
200Ω
100µA
VIN+, VIN-
18,19
U-phase Hall device input pin;
logic “H” presents IN+>IN-
17
V-phase Hall device input pin;
13
logic “H” presents IN+>INW-phase Hall device input pin;
logic “H” presents IN+>IN-
UOUT
VOUT
27
U-phase output pin.
28
V-phase output pin.
WOUT
1
W-phase output pin.
22 VS
23
(Built-in spark killer diode)
Output current detection pin.
150µA
RF
VCC
Each OUT
30kΩ
27 28 1
Connecting Rf between this pin and GND
activates current limiting circuit. Then the
Lower oversaturation
prevention circuit
block
200Ω
lower over-saturation prevention circuit is
activated in accordance with this pin
voltage. Since the over-saturation
prevention level is set with this voltage,
the lower over-saturation prevention effect
may deteriorate in the high current range
23 RF
if the Rf value is reduced to an extremely
low level.
VS
22
Power supply pin for supplying power to
FR
6
Forward/Reverse switching pin.
output section in IC.
200µA
VCC
200Ω
1/2VCC
FR 6
Continued on next page.
No.A0300-5/8
LB11988HR
Continued from preceding page.
Pin Name
FC
Pin
Input/Output Equivalent Circuit
No.
9
Pin Functions
Frequency characteristics compensation
VCC
pin for over-saturation prevention circuit
10kΩ
loop.
9 FC
VCC
FG amplifier output pin.
VCC
Resistive load provided internally.
5kΩ
4
10kΩ
FGOUT
4 FGOUT
No.A0300-6/8
VCC
21
FR 6
19
WIN-
17
VINWIN+
18
VIN+
14
13
UIN-
UIN+
12
VCC
Reference voltage
Bandgap 1.2V
Forward/Reverse
switching
Hall input
combination
unit
(linear
matrix)
distribution
Differential
9
TSD
Current limitter
LIMREF
Combined
output
logarithmic
compression
unit
FC
GND
7
Feedback
amplifier
Logarithmic
inverse
transformation
& differential
distribution
0.1µF
UIN-
UIN+
13.6kΩ
FG amplifier
30kΩ
Schmidt amplifier
Drive distribution circuit &
lower saturation
prevention control
Upper saturation
prevention control
23
1
28
27
4
FGOUT
5kΩ
VCC
WOUT
VOUT
UOUT
22
RF
VS
0.5Ω
0.1µF×3
LB11988HR
Block Diagram
No.A0300-7/8
LB11988HR
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performance, characteristics, and functions of the described products in the independent state, and are
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PS No.A0300-8/8