ETC FAN8001DTF

www.fairchildsemi.com
FAN8001D
5-Channel Motor Driver
Features
Description
•
•
•
•
•
•
The FAN8001D is a monolithic integrated circuit, suitable
for 5-ch motor driver which drives focus actuator, tracking
actuator, sled motor, spindle motor and loading motor of CD
system.
1 phase, full-wave, linear DC motor driver
Built-in TSD (Thermal shutdown) circuit
Built-in 5V regulator (With an external PNP TR)
Built-in mute circuit
Built-in loading motor speed control circuit
Wide operating supply voltage range: 6V~13.2V
28-SSOPH-375
Target Applications
•
•
•
•
Ordering Information
Compact disk player (CDP)
Video compact disk player (VCD)
Automotive compact disk player (CDP)
Other compact disk media
Device
Package
Operating Temp.
FAN8001D
28-SSOPH-375
−25°C ~ +75°C
FAN8001DTF 28-SSOPH-375
−25°C ~ +75°C
Rev. 1.0.0
February. 2000.
©2000 Fairchild Semiconductor International
1
FAN8001D
DO3.1
DO5.2
DO5.1
21
20
19
18
17
16
15
8
9
10
11
12
13
14
DO2.2
GND2
DI5.2
22
DO3.2
VCC2
23
DO2.1
VREF
24
DI3
DI4.1
25
DI2
DI4.2
26
LD CTL
DO4.2
27
DI5.1
DO4.2
28
FIN
(GND)
VCC1
GND3
Pin Assignments
2
3
4
5
6
7
DO1.2
DI1.1
DI1.2
REB
REO
MUTE
FIN
(GND)
GND1
1
DO1.1
FAN8001D
Pin Definitions
Pin Number
Pin Name
I/O
Pin Function Description
1
DO1.1
O
Focus output 1 (−)
2
DO1.2
O
Focus output 2 (+)
3
DI1.1
I
Focus input 1
4
DI1.2
I
Focus input 2 (Adjustable)
5
REB
O
Regulator base
6
REO
O
Regulator output, 5V
7
MUTE
I
Mute
8
GND1
-
Ground 1
9
DI5.1
I
Loading input 1
10
DI2
I
Spindle input 2
11
DO2.1
O
Spindle output (+)
12
DO2.2
O
Spindle output (−)
13
GND2
-
Ground 2
14
DI5.2
I
Loading input 2
15
DO5.1
O
Loading output 1(+)
16
DO5.2
O
Loading output 2(−)
17
DO3.1
O
Sled output (−)
18
DO3.2
O
Sled output (+)
19
DI3
I
Sled input
20
LD CTL
I
Loading motor speed control
21
VCC1
-
Supply voltage 1
22
VCC2
-
Supply voltage 2
23
VREF
I
2.5V bias
24
DI4.1
I
Tracking input 1 (Adjustable)
2
FAN8001D
Pin Definitions (Continued)
Pin Number
Pin Name
I/O
Pin Function Description
25
DI4.2
I
Tracking input 2
26
DO4.1
O
Tracking output 1 (+)
27
DO4.2
O
Tracking output 2 (−)
28
GND3
-
Ground 3
22
DO5.1
VCC2
23
DO5.2
VREF
24
DO3.1
DI4.1
25
DO3.2
DI4.2
26
DI3
DO4.1
27
LD CTL
DO4.2
28
FIN
(GND)
VCC1
GND3
Internal Block Diagram
21
20
19
18
17
16
15
10k
+
−
Level
shift
+
10k
10k
−
+
Level
shift
TSD
−
−
−
+
+
+
+
−
Level
shift
10k
−
Regulator
10k
10k
Mute
+
−
+
10k
10k
50k
Level
shift
−
−
+
2.5V
50k
+
COMP
−
Level
shift
+
−
10k
DO1.2
DI1.1
DI1.2
REB
REO
MUTE
FIN
(GND)
3
8
9
10
11
12
13
14
DI5.2
7
GND2
6
DO2.2
5
DO2.1
4
DI2
3
DI5.1
2
GND1
1
DO1.1
10k
FAN8001D
Equivalent Circuits
Driver input (Except for loading motor driver)
Driver output
10k
2.5V
1
2
11 12 15
16 17 18 27 26
10k
20k
0.58k
10 3
4
25 19
24
VREF1
Loading motor driver input
Loading motor speed control input
14
9
50k
50k
50k
50k
50k
50k
50k
50k
50k
50k
50k
50k
50k
20
50k
Mute input
Bias input
50k
50k
23
7
50k
4
FAN8001D
Absolute Maximum Ratings (Ta = 25°C)
Parameter
Symbol
Value
Unit
Maximum supply voltage
VCC MAX
18
V
Power dissipation
1.7
PD
note
W
Operating temperature
TOPR
−25 ~ +75
°C
Storage temperature
TSTG
−55 ~ +150
°C
Maximum current output
IOMAX
1
A
NOTE:
1. When mounted on 76mm × 114mm × 1.57mm PCB (Phenolic resin material).
2. Power dissipation reduces 13.6mW / °C for using above Ta=25°C
3. Do not exceed Pd and SOA (Safe Operating Area).
Power Dissipation Curve
Pd (mW)
3,000
2,000
1,000
0
0
25
50
75
100
125
150
175
Ambient temperature, Ta [°C]
Recommended Operating Condition (Ta = 25°C)
Parameter
Operating supply voltage
Symbol
Value
Unit
VCC
6 ~ 13.2
V
5
FAN8001D
Electrical Characteristics
(Ta=25°C, VCC=8V, RL=8Ω, f=1kHz, unless otherwise specified)
Parameter
Symbol
Conditions
Quiescent circuit current
ICCQ
Under no-load
Mute-on current
IMUTE
Pin 7=GND
Min.
Typ.
Max.
Units
2.5
6
10
mA
-
2.5
5
mA
Mute-on voltage
VMON
-
-
-
0.5
V
Mute-off voltage
VMOFF
-
2
-
-
V
REGULATOR PART
Output voltage
VREG
IL=100mA
4.7
5.0
5.3
V
Load regulation
∆VRL3
IL=0→200mA
−50
0
50
mV
Line regulation
∆VCC
VCC=6→13V, IL=100mA
−20
0
80
mV
DRIVER PART (Except for loading motor driver)
Input offset voltage
Output offset voltage 1
VIO
-
−15
-
15
mV
VOO1
-
−40
-
40
mV
ISOURCE1 RL=8Ω→VCC
0.25
0.4
-
A
ISINK1
RL=8Ω→GND
0.25
0.4
-
A
Maximum output voltage 1
VOM1
VIN=0.7V
2.5
3.3
-
V
Maximum output voltage 2
VOM2
VIN=7V
-
−4.5
−3.7
V
Maximum source current 1
Maximum sink current 1
Closed-loop voltage gain
AVF
VIN=0.1VRMS
10
12
14
dB
Ripple rejection ratio
RR
VIN=0.1VRMS, f=120Hz
40
60
-
dB
Slew rate
SR
120Hz, VIN=1VRMS,
Square wave
1
2
-
V / µs
LOADING MOTOR DRIVER PART (Unless otherwise specified, VCTL=opened)
Output voltage 1
VO1
VPIN9=5V, VPIN14=0V, RL=45Ω
2.5
3.1
3.8
V
Output voltage 2
VO2
VPIN9=0V, VPIN14=5V, RL=45Ω
2.5
3.1
3.8
V
Output voltage regulation 1
(CTL)
VOCTL1
VCTL=3.5→4.5V, VPIN9=5V
VPIN14=0V, RL=45Ω
0.5
1.0
1.5
V
Output voltage regulation 2
(CTL)
VOCTL2
VCTL=3.5→4.5V, VPIN9=0V
VPIN14=5V, RL=45Ω
0.5
1.0
1.5
V
Load regulation 1
∆VRL1
IL=100→400mA, VPIN9=5V,
VPIN14=0V
-
300
700
mV
Load regulation 2
∆VRL2
IL=100→400mA, VPIN9=0V,
VPIN14=5V
-
300
700
mV
Output offset voltage 2
VOO2
VPIN9=5V, VPIN14=5V
−40
-
40
mV
Output offset voltage 3
VOO3
VPIN9=0V, VPIN14=0V
−40
-
40
mV
6
FAN8001D
Application Information
1. MUTE
Pin #7
Mute circuit
High
Turn-off
Low
Turn-on
Output driver
bias
7
• When the mute pin #7 is open or the voltage of the mute pin #7 is below 0.5V, the mute circuit is activated so that the output
circuit will be muted.
• When the voltage of the mute pin is above 2V, the mute circuit is stopped and the output circuit is operated normally.
• If the chip temperature rises above 175°C, then the TSD (Thermal shutdown) circuit is activated and the output circuit is
muted.
2. TSD (THERMAL SHUTDOWN)
VREF BG
Output driver
bias
R11
Q11
R12
• The VREF BG is the output voltage of the band-gap-referenced biasing circuit and acts as the input voltage of the TSD
circuit.
• The base-emitter voltage of the TR, Q11 is designed to turn-on at below voltage.
VBE = VREF BG × R12 / (R11+R12) = 400mV
• When the chip temperature rises up to 175°C, then the turn-on voltage of the Q11 would drop down to 400mV.
Hence, the Q11 would turn on so the output circuit will be muted.
7
FAN8001D
3. REGULATOR
5
I
KSB772
−
VREF BG
6
VOUT
(5V)
+
D1
R2
+
R1
CE
100µF
R3
D2
• The VREF BG is the output voltage of the band-gap-referenced biasing circuit and is the reference voltage of the regulator.
• The external circuit is composed of the transistor, KSB772 and a capacitor, 100µF, and the capacitor is used as a ripple filter
and should have a good temperature characteristics.
• The output voltage, VOUT is determined as follows.
VOUT = VREF BG × 2 = 2.5 × 2 = 5V (R2 = R3)
R2 = R3
4. LOADING MOTOR DRIVER
20
I
+∆V
COMP
9
+
14
−
+
R
Buffer
−
Q1
−∆V
15
−∆V
I
+
R
+∆V
Q2
M
VREF1
Buffer
Q3
16
Q4
−
VREF1
• The input voltages of (5V and 0V) or (0V and 5V) pairs are applied to the input pin #9 and #14 respectively.
• When the input voltages are applied to the input pin #9 and #14, then the output of the comparator is decided depends on the
input voltage status.
• As shown in the above diagram, the difference ∆V, [VREF1 + (I × R)] - [VREF1 -(I × R)], is applied to the both terminals of
the motor. The direction of the motor is decided by the voltage difference, +∆V and −∆V.
• The output characteristics is as follows,
- If pin # 9=5V and #14=0V, then pin # 15=+∆V and #16= −∆V, hence the motor turn in forward direction.
- If pin # 9=0V and #14=5V, then pin # 15= −∆V and #16=+∆V, hence the motor turn in reverse direction.
- If pin # 9=5V and #14=5V, then ∆V=0V, hence the motor stop.
- If pin # 9=0V and #14=0V, then ∆V=0V, hence the motor stop.
• When the rotation speed control of the loading motor is desired, refer to the follows.
8
FAN8001D
5. LOADING MOTOR SPEED CONTROL
VCC
VCC (8V)
50k
VCC
VCC (8V)
50k
R
20
4V
4V
50k
•
•
•
•
R
20
50k
D
If the torque of the loading motor is too low with the pin #20 open, then use it as the above diagram.
The desired torque could be obtained by selecting the appropriate resistor R as shown in the left diagram.
If it is necessary, the zener diode can be used as in the right diagram.
The maximum torque is obtained when the applied voltage at pin #20 is about 6.8V (at V CC=8V).
6. DRIVER (EXCEPT FOR LOADING MOTOR DRIVER)
VREF
(2.5V)
+
−
3
−∆I
AMP
Level
shift
+
Buffer
−
Q1
10k
24
10k
+∆I
100k
+∆V
Q2
M
19 25
4
−∆V
10
+
−
Buffer
Q3
1
2
11
12
17
18
27
26
Q4
• The voltage, VREF, is the reference voltage given by the bias voltage of the pin #23.
• The input signal through the pin #3 is amplified by 10k/10k times and then fed to the level shift.
• The level shift produces the current due to the difference between the input signal and the arbitrary reference signal. The
current produced as +∆I and −∆I is fed into the driver buffer.
• Driver Buffer operates the power TR of the output stage according to the state of the input signal.
• The output stage is the BTL Driver and the motor is rotating in forward direction by operating TR Q1 and TR Q4. On the
other hand, if TR Q2 and TR Q3 is operating, the motor is rotating in reverse direction.
• When the input voltage through the pin #3 is below the VREF, the motor rotates forward direction.
• When the input voltage through the pin #3 is above the VREF, the motor rotates reverse direction.
• If it is desired to change the gain, then the pin #4 or #24 can be used.
9
FAN8001D
7. When the bias voltage of the pin #23 is below 1.4V, then the output circuit will be muted.
Hence for the normal operation, the bias voltage should be used in 1.6V~6.5V.
8. Connect a by-pass capacitor, 0.1µF between the supply voltage source.
VCC2 22
VCC1 21
104
9. Radiation fin is connecting to the internal GND of the package.
Connect the fin to the external GND.
10
FAN8001D
Typical Perfomance Chracteristics
VCC vs ICC
VCC vs Imute
16
7
14
6
5
Imuite [mA]
ICC [mA]
12
10
8
6
4
3
2
VCC=vari
pin23=2.5
2
4
Vcc =va ri
1
0
0
4
6
8
12
14
16
16
16
18
4
6
8
10
VCC [V]
16
18
20
VCC vs Isink
90
1000
80
900
70
800
Isio [mA]
Isio [mA]
14
VCC [V]
VCC vs Isou
60
50
40
700
600
VCC=vari
pin23=2.5
RL=8Ω
500
VCC=vari
pin23=2.5
RL=8Ω
30
400
300
20
4
6
8
10
12
14
4
16
6
8
VCC [V]
10
12
14
16
VCC [V]
VCC vs Vreg
VCC vs Vom
6.0
4.5
5.5
4.0
Vreg [V]
5.0
Vreg [V]
12
4.5
3.5
3.0
4.0
VCC=vari
pin23=2.5
RL=8Ω
3.5
VCC=vari
pin23=2.5
2.5
2.0
3.0
3
5
7
9
11
13
4
15
VCC [V]
6
8
10
VCC [V]
11
12
14
16
FAN8001D
Test Circuits
SW13
3
2
8Ω
1
SW12
VCC
8Ω
3
SW14
2
8Ω
3
SW20
1
SW10
3
8Ω
1
VCC
VCC
2
8Ω
SW19
1
~
VCC
SLED
CTL
100µF
Ripple ~
SW9
~
VCC
+
8Ω
3
2
TRACKING
SW21
3
2
+
2
1
1
SW18
8Ω
1
10µF
2 +
45Ω
2 +
10µF
3
20Ω
SW17
3
1
SW16
SW15
SW11
3
8Ω
1
2
IL
2.5V
VCC
VCC
28
27
26
25
24
23
22
21
GND3 DO4.2 DO4.1 DI4.2 DI4.1 VREF VCC2
20
19
VCC1 LD ctl DI3
18
17
16
15
DO3.2 DO3.1 DO5.2 DO5.1
FAN8001D
DO1.1 DO1.2 DI1.1 DI1.2 REB
1
2
3
4
6
MUTE
GND
7
9
10
DO2.1 DO2.2 GND2 DI5.2
11
12
13
14
VCC
SW4
1
SW1
2
Mute
3 KSB772
1
8Ω
3
+ 2
8Ω
VCC
Spindle
Focus
SW2
3
Loading
reverse
8Ω
VCC
~
100µF
1
2
8Ω
+ 2
Loading
forwaed
IL
~
SW3
SW7
3
SW5
+
1
DI5.1 DI2
8
VCC
VCC
1
REO
5
SW6
SW8
1
2
2
3
8Ω
8Ω
12
3
FAN8001D
Application Circuits
SERVO PRE-AMP
FOUCS
TRACKING
BIAS
CONTROLLER
SLED
SPINDLE
TRACKING
ACTUATOR
CONTROL
FORWARD
VCC
REVERSE
SLED
MOTOR
LOADING
MOTOR
M
M
102
28
27
26
25
GND3 DO4.2 DO4.1 DI4.2
24
23
22
21
DI4.1 VREF VCC2
20
19
18
17
16
15
VCC1 LD ctl
DI3 DO3.2 DO3.1 DO5.2 DO5.1
GND
DI5.1
DI2
8
9
10
FAN8001D
DO1.1 DO1.2 DI1.1 DI1.2
1
2
3
4
REB
REO
5
6
MUTE
7
DO2.1 DO2.2 GND2 DI5.2
11
12
VCC
KSB772
FOCUS
ACTUATOR
100µF
5V
out
+
M
MUTE
Low: ON
High: OFF
13
SPINDLE
MOTOR
13
14
28-SSOPH-375
MIN
0.05
0.002
2.20 ±0.20
0.087 ±0.008
#28
#14
#15
2.50
MAX
0.098
8°
MAX0.10
MAX0.004
7.50 ±0.20
0.295 ±0.008
0~
+0.10
0.25 -0.05
+0.004
0.010 -0.002
0.80 ±0.20
0.031 ±0.008
0.40 ±0.10
0.016 ±0.004
0.80
0.031
10.00 ±0.30
0.394 ±0.012
9.53
0.375
18.40 ±0.20
0.724 ±0.008
18.80 MAX
0.740
(
1.20
)
0.047
#1
TRADEMARKS
The following are registered and unregistered trademarks Fairchild Semiconductor owns or is authorized to use and is
not intended to be an exhaustive list of all such trademarks.
ACEx™
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FACT™
FACT Quiet Series™
FAST®
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GlobalOptoisolator™
GTO™
HiSeC™
ISOPLANAR™
MICROWIRE™
OPTOLOGIC™
OPTOPLANAR™
POP™
PowerTrench®
QFET™
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QT Optoelectronics™
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DISCLAIMER
FAIRCHILD SEMICONDUCTOR RESERVES THE RIGHT TO MAKE CHANGES WITHOUT FURTHER
NOTICE TO ANY PRODUCTS HEREIN TO IMPROVE RELIABILITY, FUNCTION OR DESIGN. FAIRCHILD
DOES NOT ASSUME ANY LIABILITY ARISING OUT OF THE APPLICATION OR USE OF ANY PRODUCT
OR CIRCUIT DESCRIBED HEREIN; NEITHER DOES IT CONVEY ANY LICENSE UNDER ITS PATENT
RIGHTS, NOR THE RIGHTS OF OTHERS.
LIFE SUPPORT POLICY
FAIRCHILD’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT
DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF FAIRCHILD SEMICONDUCTOR CORPORATION.
As used herein:
1. Life support devices or systems are devices or
2. A critical component is any component of a life
support device or system whose failure to perform can
systems which, (a) are intended for surgical implant into
be reasonably expected to cause the failure of the life
the body, or (b) support or sustain life, or (c) whose
support device or system, or to affect its safety or
failure to perform when properly used in accordance
with instructions for use provided in the labeling, can be
effectiveness.
reasonably expected to result in significant injury to the
user.
PRODUCT STATUS DEFINITIONS
Definition of Terms
Datasheet Identification
Product Status
Definition
Advance Information
Formative or
In Design
This datasheet contains the design specifications for
product development. Specifications may change in
any manner without notice.
Preliminary
First Production
This datasheet contains preliminary data, and
supplementary data will be published at a later date.
Fairchild Semiconductor reserves the right to make
changes at any time without notice in order to improve
design.
No Identification Needed
Full Production
This datasheet contains final specifications. Fairchild
Semiconductor reserves the right to make changes at
any time without notice in order to improve design.
Obsolete
Not In Production
This datasheet contains specifications on a product
that has been discontinued by Fairchild semiconductor.
The datasheet is printed for reference information only.
Rev. F1