SANYO LB11967V

Ordering number : EN8362C
Monolithic Digital IC
LB11967V
For Variable Speed Fan Motor
Single-Phase Full-Wave Pre-Driver
Overview
The LB11967V is a single-phase bipolar variable speed fan motor pre-driver that works with an external PWM signal.
A highly efficient, quiet and low power consumption motor driver circuit, with a large variable speed, can be implemented
by adding a small number of external components.
This device is optimal for driving large scale fan motors (with large air volume and large current) such as those used in
servers and consumer products.
Functions
• Pre-driver for single-phase full-wave drive
⇒ PNP-EMOS is used as an external power Transistor, enabling high-efficiency low-consumption drive by means of
the low-saturation output and single-phase full-wave drive. (PMOS-NMOS also applicable)
• External PWM input enabling variable speed control
⇒ Separately-excited upper direct PWM (f = 25kHz) control method, enabling highly silent speed control
• Compatible with 12V, 24V, and 48V power supplies
• Current limiter circuit incorporated
⇒ Chopper type current limit at start
• Reactive current cut circuit incorporated
⇒ Reactive current before phase change is cut to enable silent and low-consumption drive.
• Minimum speed setting pin
⇒ Minimum speed can be set with external resistor. The start assistance circuit enables start at extremely low speed.
• Constant-voltage output pin for Hall bias
• Lock protection and automatic reset functions incorporated
• (Rotation speed detection), RD (Lock detection) output
Any and all SANYO Semiconductor Co.,Ltd. products described or contained herein are, with regard to
"standard application", intended for the use as general electronics equipment (home appliances, AV equipment,
communication device, office equipment, industrial equipment etc.). The products mentioned herein shall not be
intended for use for any "special application" (medical equipment whose purpose is to sustain life, aerospace
instrument, nuclear control device, burning appliances, transportation machine, traffic signal system, safety
equipment etc.) that shall require extremely high level of reliability and can directly threaten human lives in case
of failure or malfunction of the product or may cause harm to human bodies, nor shall they grant any guarantee
thereof. If you should intend to use our products for applications outside the standard applications of our
customer who is considering such use and/or outside the scope of our intended standard applications, please
consult with us prior to the intended use. If there is no consultation or inquiry before the intended use, our
customer shall be solely responsible for the use.
Specifications of any and all SANYO Semiconductor Co.,Ltd. products described or contained herein stipulate
the performance, characteristics, and functions of the described products in the independent state, and are not
guarantees of the performance, characteristics, and functions of the described products as mounted in the
customer' s products or equipment. To verify symptoms and states that cannot be evaluated in an independent
device, the customer should always evaluate and test devices mounted in the customer' s products or
equipment.
61610 SY/91708 MS / 72308 MS 20080703-S00002 / 92706 / 81005 SY PC No.8362-1/9
LB11967V
Specifications
Maximum Ratings at Ta = 25°C
Parameter
Symbol
Conditions
Ratings
Unit
VCC maximum supply voltage
VCC max
18
V
OUT pin maximum output current
IOUT max
50
mA
OUT pin output withstand voltage
VOUT max
18
V
IHB max
10
mA
VVTH max
8
V
VRD/VFG max
18
V
IRD/IFG max
10
mA
800
mW
HB maximum output current
VTH input pin withstand voltage
RD/FG output pin output
withstand voltage
RD/FG output current
Allowable power dissipation
Pd max
Mounted on a specified board*
Operating temperature range
Topr
-30 to +95
°C
Storage temperature range
Tstg
-55 to +150
°C
*Specified board: 114.3mm × 76.1mm × 1.6mm, glass epoxy board.
Recommended Operating Conditions at Ta = 25°C
Parameter
Symbol
VCC supply voltage
VCC
VTH input level voltage range
VTH
Hall input common phase input
VICM
Conditions
Ratings
Unit
6 to 16
Full speed mode
V
0 to 7
V
0.2 to 3
V
voltage range
Electrical Characteristics at Ta = 25°C, VCC = 12V, unless otherwise specified.
Parameter
Symbol
Ratings
Conditions
min
Circuit current
6VREG voltage
HB voltage
VOVER voltage
typ
Unit
max
ICC1
During drive
6
10
14
mA
ICC2
During lock protection
6
10
14
mA
6VREG
VHB
VVOVER
I6VREG = 5mA
5.80
6.0
6.15
V
IHB = 5mA
1.05
1.22
1.35
V
IVOVER = 1mA
12.0
12.8
13.6
V
CPWM-H level voltage
VCRH
4.35
4.55
4.75
V
CPWM-L level voltage
VCRL
1.45
1.65
1.85
V
CPWM oscillation frequency
FPWM
CT pin H level voltage
VCTH
CT pin L level voltage
VCTL
ICT pin charge current
ICT1
VCT = 1.2V
ICT pin discharge current
ICT2
VCT = 4.0V
ICT charge/discharge current ratio
RCT
OUT-N output voltage
VON
OUT-P sink current
IOP
Hall input sensitivity
VHN
C = 100pF
18
25
32
kHz
3.4
3.6
3.8
V
1.4
1.6
1.8
V
1.6
2.0
2.5
μA
0.16
0.20
0.28
μA
ICT1/ICT2
8
10
12
deg
IO = 20mA
4
10
V
15
20
mA
Zero peak value
10
20
mV
0.15
0.3
V
30
μA
(including offset and hysteresis)
RD/FG output pin L voltage
VRD/VFG
IRD/IFG = 5mA
RD/FG output pin leak current
IRDL/IFGL
VRD/VFG = 16V
No.8362-2/9
LB11967V
Package Dimensions
unit : mm (typ)
3179C
Pd max -- Ta
Allowable power dissipation, Pd max -- mW
1000
6.5
20
0.5
6.4
4.4
11
1
10
0.65
0.15
0.22
1.5max
(1.3)
(0.33)
Mounted on specified board: 114.3×76.1×1.6mm3
glass epoxy board
800
600
400
352
200
0
--30
--10
10
30
50
70
90
110
PCA00204
0.1
Ambient temprature, Ta -- °C
SANYO : SSOP20(225mil)
Pin Assignment
20 OUT1P
OUT2N 2
19 OUT1N
VCC 3
18 VOVER
VLIM 4
17 SGND
LB11967V
OUT2P 1
SENSE 5
RMI 6
VTH 7
16 6VREG
15 ROFF
14 CT
CPWM 8
13 IN+
FG 9
12 HB
RD 10
11 INTop view
Truth Table
During full-speed rotation
IN-
IN+
H
L
L
H
H
L
L
H
VTH
CPWM
L
H
H
L
CT
L
H
IN-
OUT1P
OUT1N
OUT2P
OUT2N
FG
RD
Mode
OUT1 → 2 drive
L
L
OFF
H
L
OFF
H
L
L
OFF
OFF
L
OFF
H
L
OFF
H
OFF
L
OFF
IN+
OUT1P
OUT1N
OUT2P
OUT2N
Mode
L
OUT2 → 1 drive
OFF
Lock protection
H
L
L
L
OFF
H
OUT1 → 2 drive
L
H
OFF
H
L
L
OUT2 → 1 drive
H
L
OFF
L
OFF
H
During rotation
L
Regeneration in lower Tr
L
H
OFF
H
OFF
No.8362-3/9
VCC
HALL
IN-
IN+
HB
ROFF
6VREG
0.47 to 1μF
CT
Hysteresis AMP
Hall-Bias
6VREG
RMI
Discharge pulse
VTH
Controller
CPWM
Oscillation
VLIM
SENSE
Discharge circuit
SGND
OUT2P
OUT2N
OUT1P
OUT1N
RD
FG
LB11967V
Block Diagram
No.8362-4/9
LB11967V
Sample Application Circuit 1 (12V)
CB=~0.022μF
RB=10kΩ
Vz=18V
ROUT=100Ω
SOP8901
RF
RFG,RRD=10k~100kΩ
VCC
RD
VOVER
FG
HB
H
6VREG
SENSE
IN-
VLIM
IN+
6VREG
RMI
ROFF
R=0~5kΩ
OUT1P
VTH
PWM-IN
OUT1N
OUT2P
CPWM
CP=100pF
25kHz
CT=0.47μF
OUT2N
CT
SGND
No.8362-5/9
LB11967V
Sample Application Circuit 2 (24V, 48V)
RF
VCC
RD
VOVER
FG
H
6VREG
HB
SENSE
IN-
VLIM
IN+
6VREG
RMI
ROFF
OUT1P
VTH
PWM-IN
OUT1N
OUT2P
CPWM
CP=100pF
OUT2N
CT
SGND
No.8362-6/9
LB11967V
*1. <Power supply-GND wiring>
SGND is connected to the control circuit power supply system.
*2. <Power stabilization capacitor for regeneration>
For the CM capacitor that is a power stabilization capacitor for PWM drive and for absorption of kick-back, the
capacitance uses 0.1μF or more. In this IC, the lower Transistor performs current regeneration by means of
switching of upper Transistor. Connect CM between VCC and GND with the thick pattern and along the shortest
route.
*3. <Zener diode to stabilize power supply for regneration>
Be sure to use the zener diode if kick-back causes excessive increase of the supply voltage because such increase
damages IC.
*4. <Hall input>
Wiring need to be short to prevent carrying of the noise. If the noise is carried, insert a capacitor between IN+ and
IN-. The Hall input circuit is a comparator having a hysteresis of 20mV. It is recommended that the Hall input level
is more than three times (60mVp-p) this hysteresis.
*5. <Capacitor to set the PWM oscillation frequency>
With CP = 100pF, oscillation occurs at f = 25kHz and provides the basic frequency of PWM.
*6. <RD output>
This is the open collector output, which outputs “L” during rotation and “H” at stop. This output is left open when
not used.
*7. <FG output>
This is the open collector output, which can detect the rotation speed using the FG output according to the phase shift.
This output is left open when not used.
*8. <HB pin>
This is a Hall element bias pin, that is, the constant-voltage output pin.
*9. <RMI pin>
This is the minimum speed setting pin, which is pulled up with 6VREG when not used.
When IC power may possibly be turned OFF first when the pin is used, be sure to insert a current limiting resistor to
prevent inflow of the large current. (The same applies to the VTH pin.)
*10. <ROFF pin>
This pin sets the soft switching time to cut the reactive current before phase change and is connected to 6VREG
when not used.
*11. <VLIM pin>
This pin activates the current limiter when the SENSE pin voltage is higher than the VLIM pin voltage and is
connected to 6VREG when not used.
*12. <SENSE pin>
This is connected to GND when not used.
*13. <VOVER pin>
This is a pin for constant-voltage bias and should be used for application of 24V and 48V. (Refer to the sample
application circuit.) Be sure to use the current limiting resistor. This is left open when not used.
No.8362-7/9
LB11967V
Control Timing Chart
VTH voltage
f=25kHz (CP=100pF)
ON-Duty-large
4.55V
RMI voltage
CPWM
1.65V
ON-Duty-small
PMW-IN disconnected
0V
Rotation set to
minimum speed
(Stop mode)
PWM control variable speed
Low speed
High speed
Full speed
12V
VCC
0V
FG
(1) Minimum speed setting (stop) mode
PWM-IN input is filtered to generate the VTH voltage. At low speed, the fan rotates with the minimum speed set with
RMI pin during low speed. If the minimum speed is not set (RMI = 6VREG), the fan stops.
(2) Low⇔High speed mode
PWM control is made through comparison of oscillation and VTH voltages with CPWM changing between
1.6V⇔4.6V.
When the VTH voltage is lower, the IC switches to drive mode. When the VTH voltage is higher, the p-channel FET
is turned off and coil current is regenerated through the low-side FET. Therefore, as the VTH voltage lowers, the
output ON-DUTY increases, increasing the coil current and raising the motor speed.
The rotation speed is fed back by the FG output.
(3) Full speed mode
The full-speed mode becomes effective with the VTH voltage of 1.65V or less. (VTH must be equal to GND when the
speed control is not to be made.)
(4) PWM-IN input disconnection mode
When the PWM-IN input pin is disconnected, VTH becomes 1.65V or les and the output enables full drive at 100%.
The fan runs at full speed. (Refer to the sample application circuit.)
No.8362-8/9
LB11967V
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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 Co.,Ltd.
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This catalog provides information as of June, 2010. Specifications and information herein are subject
to change without notice.
PS No.8362-9/9