SANYO LB11681H

Ordering number : ENA0665
LB11681H
Monolithic Digital IC
PWM Three-phase Brushless Motor Driver
Overview
The LB11681H is a three-phase brushless fan motor driver IC. This IC uses a PWM soft switching
drive-method (for low-noise drive). Since this IC includes a motor constraint protection circuit necessary
for a fan motor system, highly reliable products including this IC can be designed. Also, this IC can be
operated with 12V single power supply.
Functions
• Direct PWM drive
• Three-phase full-wave driving method
• Soft switching driving
• Built-in lock (constraint) protection circuit
• Built-in lock (constraint) detection circuit
• FG output (provides one Hall effect sensor equivalent
FG outputs)
• Built-in Forward / Reverse switching circuit
• Built-in thermal shut down circuit
• Built-in current limitation circuit
Specifications
Absolute Maximum Ratings at Ta = 25°C
Parameter
Symbol
Conditions
Ratings
Unit
Supply Voltage
VM max
15.0
V
Output current
IO max
1.3
A
Allowable Power dissipation 1
Pd max1
Independence IC
0.8
W
Allowable Power dissipation 2
Pd max2
Mounted on a circuit board*
2.0
W
Operating temperature
Topr
-20 to 85
°C
Storage temperature
Tstg
-55 to 150
°C
* Mounted on a specified board: 114.3mm×76.1mm×1.6mm, glass epoxy.
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
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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.
22807 MS IM B8-8366 No.A0665-1/11
LB11681H
Recommended Operating Ranges at Ta = 25°C
Parameter
Symbol
Conditions
Ratings
Unit
Supply Voltage range
VM
10 to 14
V
FG pin output current
VFG
0 to 3.0
mA
LD pin output current
VLD
0 to 1.0
mA
Electrical Characteristics at Ta = 25°C, VM = 12.0V
Parameter
Symbol
Ratings
Conditions
min
Current drain1
IM1
typ
VCTL=1.75V and VREF=1.75V
Unit
max
(10.0)
mA
VR pin
VR pin voltage
VR
5.0
V
Output block
Saturated voltage
VSAT
SOURCE + SINK, IO=0.6A
Diode forward voltage
VD
IO=0.6A
PWM frequency
fPWM
OSC=220pF
60
1.4
2.1
V
1.2
1.6
V
75
90
kHz
Hall amplifier
Common-mode input range
VCM
1.0
4.0
Input off set voltage
VHOF
-5
5
mV
Input current
IHIN
-3
3
µA
Hall minimum input level
VHIN
Differential input
Hysteresis
VHYS
Sum of upper and lower hysteresis
35
mVp-p
50
6
V
mVp-p
15
Current control circuit
VCTL input voltage range
VCTL
VREF input voltage range
VCREF
Driving gain
GDF+L
Control start voltage
VDS
Limiter voltage
VRf
0.17
0.21
0.25
V
Charge current
IIC
3.8
4.1
4.4
µA
Discharge current 1
IDC1
2.1
2.4
2.7
µA
3.5
3.9
4.3
mA
0
Linear region 1.5 to 2.0V
0
1.75
0.18
0.21
VREF
VR-1
V
3.5
V
0.24
V/V
VREF+40
mV
LCK pin
When the lock protection function is
running
Discharge current 2
IDC2
Lock detection operation voltage
VLDON
When a Hall FG is input, VCLK=4
0.70VR
0.85VR
V
Lock detection release voltage
VLDOFF
0.22VR
0.28VR
V
V
F/R pin
High level input voltage range
VFRH
2.5
VR
Low level input voltage range
VFRL
0
0.6
V
High level input current
IFRH
VFR=VR
120
300
µA
VLDL
ILOAD=1mA
0.15
0.4
V
VFGL
ILOAD=3mA
0.15
0.4
V
VH-
IH=5mA
1.1
1.5
1.8
V
TSD
Design target*
150
180
°C
∆TSD
Design target*
40
°C
LD pin
Low level voltage
FG output pin
Low level voltage
Hall bias
Minus- side pin voltage
Thermal shut down circuit
Thermal shut down operation
temperature
Temperature hysteresis
*: Design target value and no measurement was made.
No.A0665-2/11
LB11681H
Package Dimensions
unit : mm (typ)
3233B
HEAT SPREADER
15.2
(6.2)
0.65
7.9
10.5
15
(4.9)
28
1
14
0.8
0.25
2.0
0.3
0.1
(2.25)
2.45max
(0.8)
2.7
SANYO : HSOP28H(375mil)
Pd max - Ta
Allowable Power Dissipation, Pd max - W
2.4
Mounted on a specified board:
114.3mm×76.1mm×1.6mm, glass epoxy
2.0
1.6
1.2
0.96
Independent IC
0.8
0.384
0.4
0
-20
0
20
40
60
80
Ambient Temperature, Ta -°C
100
ILB01808
3
4
5
6
7
8
9
10
11
12
13
14
F/R
VR
NC
FG
2
LCK
1
LD
NC
NC
15
IB
SGND
16
PWM
HW-
17
VREF
HW+
18
WOUT
HV-
19
VCTL
HV+
20
VOUT
HU-
21
UOUT
22
NC
23
PGND
24
RF
25
VM
26
NC
27
HB-
28
HU+
Pin Assignment
LB11681H
Top view
No.A0665-3/11
IB
HB-
HW-
HW+
HV-
HV+
HU-
HU+
F/R
HALL
BIAS
TSD
Q
MATRIX
&
LOGIC
FG
S
R
LCK
PWM
OSC
LOCK DITECT
LD
VREF
LIM
LEVEL SHIFT
VR
-
VCTL
SGND
PGND
RF
WOUT
VOUT
UOUT
VM
LB11681H
Block Diagram
+
No.A0665-4/11
LB11681H
Truth Table
Source
F/R “L”
Sink
F/R “H”
HU+
HV+
HW+
HU+
HV+
HW+
1
WOUT→VOUT
H
H
L
L
L
H
2
WOUT→UOUT
H
L
L
L
H
H
3
VOUT→UOUT
H
L
H
L
H
L
4
VOUT→WOUT
L
L
H
H
H
L
5
UOUT→WOUT
L
H
H
H
L
L
6
UOUT→VOUT
L
H
L
H
L
H
Sample Application Circuit
3
4
5
6
7
8
9
10
11
12
13
14
F/R
VR
NC
FG
2
LCK
1
LD
NC
NC
15
IB
SGND
16
PWM
HW-
17
VREF
HW+
18
WOUT
HV-
19
VCTL
HV+
20
VOUT
HU-
21
UOUT
22
NC
23
PGND
24
RF
25
VM
26
NC
27
LD
HB-
28
HU+
VCTL VREF
LB11681H
+
12V
FG
No.A0665-5/11
LB11681H
Pin Functions
Pin No.
Symbol
1
HB-
Pin Description
Equivalent Circuit
Hall bias minus-side bias pin.
VR
Minus-side bias pin of Hall element is connected
with this pin.
In addition, connect a bias resistance between
Hall element plus-side bias and power supply.
1kΩ
1
3
VM
Power supply pin.
Connect a capacitor between this pin and GND.
4
RF
Pin to detect the output current.
VM
The drive current is detected by connecting a
low-resistance between this pin and GND.
7
UOUT
Output pin.
8
VOUT
The motor coils are connected with these pins.
9
WOUT
7
8
9
35kΩ
4
5
PGND
Output system ground
10
PWM
PWM oscillation pin.
VR
Connect a capacitor between this pin and GND.
1kΩ
10
3kΩ
Output drive current adjustment pin.
Connect a resistor between this pin and GND.
VR
1kΩ
IB
40kΩ
11
11
Continued on next page.
No.A0665-6/11
LB11681H
Continued from preceding page.
Pin No.
Symbol
13
FG
Pin Description
Equivalent Circuit
FG pulse output pin (Open collector output)
VR
Provides one Hall effect sensor equivalent FG
output)
When the FG output is necessary, connect a pullup resistance with this pin.
14
VR
13
Simplified power supply output pin.
VM
Connect a capacitor between this pin and GND.
This pin is connected with power supply of the
10kΩ
small signal system circuit in IC.
15
F/R
14
Pin to switch the rotating mode in spindle motor
block.
VR
Do not apply a voltage above the voltage of the
VR pin.
Switch F / R when the motor has stopped.
40kΩ
40kΩ
15
17
LCK
Lock protection circuit timing setting pin.
Connect a capacitor between this pin and GND.
VR
As the capacity increase,
the time of lock detection / release setting can be
lengthened
1kΩ
17
1kΩ
19
LD
Lock detection output pin (Open collector output)
The LD output goes to the high level during lock
VR
protection
When LD output is necessary, connect a pull-up
resistance with this pin
19
Continued on next page.
No.A0665-7/11
LB11681H
Continued from preceding page.
Pin No.
Symbol
20
VREF
Pin Description
Equivalent Circuit
The pin as reference voltage of control amplifier
20
21
VCTL
185kΩ
VR
10kΩ
Control amplifier input pin
VR
300Ω
21
22
SGND
23,24
HW±
25,26
HV±
27,28
HU±
Small signal system ground pin
Hall input pin
VR
24
26
28
300Ω
300Ω
23
25
27
No.A0665-8/11
LB11681H
Explanation of LB11681H and External Parts
The LB11681H is three-phase brush less fan motor driver IC that can be operated with 12V signal power supply.
Since this IC is PWM soft switching drive, it is perfect to operate as high-efficiency motor for a low-noise drive.
Also, since this IC incorporates a motor constraint protection function necessary for a fan motor, highly reliable
products can be designed.
To design the system by using the LB11681H, please develop the system that is obtained sufficient characteristics
after reading the following details.
1. Output Drive Circuit
The LB11681H is three-phase brush less type fan motor driver.
A high-efficiency direct PWM drive method is adopted in this drive.
Also, for low-noise drive of motor, 180degrees current-carrying soft switching method is adopted.
2. Hall Amplifier and Bias circuit
Since motor driving current depends on the Hall input waveform, the Hall input amplitude should be set to
appropriate value. To obtain good driving current, please adjust the bias resistance so that the Hall input
amplitude is 100-200mVp-p. When the Hall input amplifier is large, a current-carrying OFF band is made.
Connect a Hall bias resistance between the Hall power supply and plus-side of Hall bias.
Also, connect the minus-side of the Hall bias with the HB-pin (pin 1) directly. (No bias resistance on the minusSide ).
3. Current Limitation Circuit
The LB11681H incorporates the current limitation circuit. The value of control current of the current limitation
circuit is determined by I = VRF / Rf. (VRF = 0.21V typical)
The current limitation operation, when the voltage of the RF pin (pin 4) exceeds the limiting value,
The transistor on the sink-side is turned off.
4. PWM oscillation circuit
The PWM frequency of this IC is adjustable by connecting the capacitor between the PWM pin (pin 10) and
GND. We recommend the PWM frequency of 50kHz to 100kHz. When the PWM oscillation frequency is too low,
the ripple amplitude of the coil current becomes large. Also, when the PWM oscillation frequency is too high,
the driving efficiency is reduced.
5. Adjust of the driving current
In order to ensure the soft switching, it is necessary to set the driving current value by the best value with inputting a
proper the Hall input amplitude.
The driving current is set by the IB pin (pin 11).
When the value of the IB resistance becomes small, large amounts of the driving current will flow.
The constants of reference for the IB resistance and the RF resistance are shown below.
RF limited current
RF resistance
IB constant
Controlled gain
0.64(A)
1Ω 3parallel
8.2(kΩ)
0.66(A/V)
0.84(A)
1Ω 4parallel
6.8(kΩ)
0.88(A/V)
1.05(A)
1Ω 5parallel
4.7(kΩ)
1.10(A/V)
1.26(A)
1Ω 6parallel
3.3(kΩ)
1.32(A/V)
No.A0665-9/11
LB11681H
6. FG output
The FG pin (pin 13) of this IC is the Hall input U-phase comparator output.
Also, since the FG pin is a open collector output, please connect a pull-up resistance with this pin.
(When the FG output is not used, no a pull-up resistance necessary.)
7. F / R pin (Forward / Reverse)
The F/R pin (pin 15) is a pin for the motor rotation direction switching.
By switching the input level, the direction of rotation of the motor is switchable.
In the high input level, Please do not apply beyond the limits of the voltage of the VR pin (pin 14).
Also, carry out switching of forward / reverse when the motor has stopped.
8. Motor Lock Detection Protection Circuit
The LB11681H incorporates the lock protection circuit to protect the IC and the system from the motor restrained
condition. If the rotor of the brush less motor is not rotated by any reason a certain period of time, the voltage of
the LCK pin is rising. And, when the voltage reaches the lock detection operation voltage the motor is judged as
a restrained condition. Then, the LD pin output (Lock detection output, pin 19) is changed from low to high.
The output transistor becomes a intermittent driving mode at a time.
Therefore, the system is protected by suppressing the heat generation of IC. The setting of the lock detection time
can be adjusted by connecting the capacitance value between the LCK pin (pin 17) and GND.
When the rotor have started, the motor is released from restriction. And, when the motor becomes a normal drive
from a intermitted drive, the LD output goes to low.
When the motor is rotating, the current (discharged current 2) of one-PWM period is discharged every one-pulse
of a Hall FG. In addition, since the LD pin is a open-collector output, please connect a pull-up resistance with the
LD pin (When the LD pin is not used, no a pull-up resistance ).
The relationship between the average time from the lock protection condition to release of the lock protection
condition and the capacity of a LCK capacitor (CLCK) are as follows.
The average time from the lock condition (Stopped of the motor) to the operation of the lock protection function
= (3.8 - *VLCK ) × CLCKF / 4.1µA
The average time from the operation of the lock protection function to release of the lock protection condition
= 2.6 × CLCKF / 2.4µA
Note : *VLCK is the voltage of the LCK pin.
The voltage of the LCK pin changes depending on a rotating speed or the lock protection circuit is
nonfunctional.
When CLCK is 2.2µF,
The average time from the lock condition (Stopped of the motor) to the operation of the lock protection function
= 2.0s
The average time from the operation of the lock protection function to release of the lock protection condition
= 2.4s
9. Control Amplifier
The driving current of the LB11681H can be controlled by the difference in voltage (the difference in voltage is
shown as “∆CTL” from here.) between the VCTL pin (pin 21) and the VREF pin (pin 20).
When ∆CTL increases, the driving current becomes large.
Dynamic range of ∆CTL is about 1V, when the voltage of the CTL pin becomes 1V or more, the IC becomes a
full-driving state. Also, when “∆CTL is a positive relationship, the output is turned off.
No.A0665-10/11
LB11681H
10. Usage Note :
As for the GND
The frames of center of IC are the power system ground.
The power GND and the system GND are set to the lowest potential.
As for the bypath capacitor
The bypath capacitor between the VM pin and GND must connect as close as possible to the GND pin of IC.
As for VM, GND and short-circuit between the outputs.
Please avoid the following matters. :
- Short between the output pin and the VM pin.
- Short between the output pin and GND
- Short between the outputs.
Also, the IC should be oriented on the board because the IC may be destroyed and may be emitted smoke
possibly.
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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.
products described or contained herein.
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semiconductor products fail or malfunction with some probability. It is possible that these probabilistic failures or
malfunction could give rise to accidents or events that could endanger human lives, trouble that could give rise
to smoke or fire, or accidents that could cause damage to other property. When designing equipment, adopt
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limited to protective circuits and error prevention circuits for safe design, redundant design, and structural
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product/technology improvement, etc. When designing equipment, refer to the "Delivery Specification" for the
SANYO Semiconductor Co.,Ltd. product that you intend to use.
Information (including circuit diagrams and circuit parameters) herein is for example only; it is not guaranteed
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This catalog provides information as of February, 2007. Specifications and information herein are subject
to change without notice.
PS No.A0665-11/11