FAIRCHILD KA3037

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FAN8037 (KA3037)
7-CH Motor Driver
Features
Description
•
•
•
•
•
•
•
•
The FAN8037 is a monolithic integrated circuit suitable for
a 7-ch motor driver which drives the tracking actuator, focus
actuator, sled motor, tray motor, changer motor, panel motor
and, spindle motor of the CDP/CAR-CD systems.
4-CH balanced transformerless (BTL) driver
3-CH (forward - reverse) control DC motor driver
Operating supply voltage (4.5 V ~ 13.2 V)
Built-in thermal shut down circuit (TSD)
Built-in all channel mute circuit
Built-in power save mode circuit
Built-in stand by mode circuit
Built-in variable regulator
48-QFPH-1414
Target Application
•
•
•
•
Ordering Information
Compact disk player (Tray, Changer)
Video compact disk player (Tray, Changer)
Car compact disk player (Tray, Changer)
Mixing with compact disk player and mini disk player
(Tray, Changer, Panel)
Device
Package
Operating Temp.
FAN8037
48-QFPH-1414
−35°C ~ +85°C
Rev. .1.0.2
May. 2000.
©2000 Fairchild Semiconductor International
1
FAN8037 (KA3037)
REGOX
PVCC1
DO1+
DO1−
DO2+
45
REGX
46
RESX
IN1.1
47
VREF
IN1.2
48
SVCC
OUT1
Pin Assignments
44
43
42
41
40
39
38
37
IN2.1
1
36
DO2−
IN2.2
2
35
PGND1
OUT2
3
34
DO3+
IN3.1
4
33
DO3−
IN3.2
5
32
DO4+
OUT3
6
31
DO4−
FAN8037
CTL1
10
27
DO6+
FWD1
11
26
DO6−
REV1
12
25
DO7+
13
14
15
16
17
18
2
19
20
21
22
23
24
DO7−
PGND2
PVCC2
28
MUTE
9
PS
OUT4
SB
DO5−
CTL3
29
REV3
8
FWD3
IN4.2
SGND
DO5+
REV2
30
FWD2
7
CTL2
IN4.1
FAN8037 (KA3037)
Pin Definitions
Pin Number
Pin Name
I/O
Pin Function Descrition
1
IN2.1
I
CH2 op-amp input (+)
2
IN2.2
I
CH2 op-amp input (−)
3
OUT2
O
CH2 op-amp output
4
IN3.1
I
CH3 op-amp input (+)
5
IN3.2
I
CH3 op-amp input (−)
6
OUT3
O
CH3 op-amp output
7
IN4.1
I
CH4 op-amp input (+)
8
IN4.2
I
CH4 op-amp input (−)
9
OUT4
O
CH4 op-amp output
10
CTL1
I
CH5 motor speed control
11
FWD1
I
CH5 forward input
12
REV1
I
CH5 reverse input
13
CTL2
I
CH6 motor speed control
14
FWD2
I
CH6 forward input
15
REV2
I
CH6 reverse input
16
SGND
-
Signal groung
17
FWD3
I
CH7 forward input
18
REV3
I
CH7 reverse input
19
CTL3
I
CH7 motor speed control
20
SB
I
Stand by
21
PS
I
Power save
22
MUTE
I
All mute
23
PVCC2
-
Power supply voltage (For CH5, CH6, CH7)
24
DO7−
O
CH7 drive ouptut (−)
25
DO7+
O
CH7 drive output (+)
26
DO6−
O
CH6 drive output (−)
27
DO6+
O
CH6 drive output (+)
28
PGND2
-
Power ground2 (FOR CH5, CH6, CH7)
29
DO5−
O
CH5 drive output (−)
30
DO5+
O
CH5 drive output (+)
31
DO4−
O
CH4 drive output (−)
32
DO4+
O
CH4 drive output (+)
3
FAN8037 (KA3037)
Pin Definitions (Continued)
Pin Number
Pin Name
I/O
Pin Function Descrition
33
DO3−
O
CH3 drive output (−)
34
DO3+
O
CH3 drive output (+)
35
PGND1
-
Power ground 1 (FOR CH1, CH2, CH3, CH4)
36
DO2−
O
CH2 drive output (−)
37
DO2+
O
CH2 drive output (+)
38
DO1−
O
CH1 drive output (−)
39
DO1+
O
CH1 drive output (+)
40
PVCC1
-
Power supply voltage (FOR CH1, CH2, CH3, CH4)
41
REGOX
I
Regulator feedback input
42
REGX
O
Regulator output
43
RESX
I
Regulator reset input
44
VREF
I
Bias voltage input
45
SVCC
-
Signal supply voltage
46
IN1.1
I
CH1 op-amp input (+)
47
IN1.2
I
CH1 op-amp input (−)
48
OUT1
O
CH1 op-amp output
4
FAN8037 (KA3037)
Internal Block Diagram
OUT1
48
IN1.2
47
IN1.1
46
SVCC
VREF
RESX
45
44
43
REGX REGOX PVCC1 DO1+
42
41
40
DO1−
DO2+
38
37
39
+
IN2.1
1
IN2.2
2
−
− +
−
+
−
OUT2
3
IN3.1
4
IN3.2
5
OUT3
PGND1
34
DO3+
−
33
DO3−
−
32
DO4+
31
DO4−
30
DO5+
+
−
−
+
+
6
+
+
−
IN4.1
35
+
+
+
−
DO2−
−
+
+
−
36
+
−
−
7
M
S
C
S
W
IN4.2
8
OUT4
9
M
S
C
S
W
+
D
−
D
29
DO5−
+
D
28
PGND2
−
D
27
DO6+
+
D
−
26
DO6−
D
25
DO7+
CTL1 10
M
S
C
S
W
FWD1 11
STAND BY
T.S.D
REV1 12
ALL MUTE
POWER SAVE
13
14
CTL2
FWD2
15
16
REV2 SGND
17
FWD3
18
REV3
Notes:
1. SW = Logic switch
2. MSC = Motor speed control
3. D = Output driver
5
19
20
21
CTL3
SB
PS
22
23
24
MUTE PVCC2 DO7−
FAN8037 (KA3037)
Equivalent Circuits
Description
Pin No.
Input
OPIN (+)
OPIN (−)
46,47,1,2
4,5,7,8
Internal circuit
SVCC
SVCC
46 1
SVCC
0.05k
0.05k
4 7
Input
opout
48,3,6,9
SVCC
SVCC
48 3
6 9
CTL
10,13,19
SVCC
SVCC
0.05k
10 13 19
Logic drive
FWD input
REV input
11,12,
14,15,
17,18
1k
SVCC
11 12
14 15
0.05k
30k
17 18
30k
6
47 2
5 8
FAN8037 (KA3037)
Equivalent Circuits (Continued)
Description
Pin No.
Power save
Standby
20,21
Internal circuit
SVCC
SVCC
20
21
50k
0.05k
50k
Mute
22
SVCC
SVCC
0.05k
50k
22
50k
Logic
drive
output
24, 25
26, 27
29,30
SVCC
PVCC2
30k
24 25
26 27
1k
29 30
25k
4-CH
drive
output
31, 32
33, 34
36, 37
38, 39
SVCC
PVCC1
31 32
33 34
36 37
38 39
20k
20k
25k
7
FAN8037 (KA3037)
Equivalent Circuits (Continued)
Description
Pin No.
Ref
44
Internal circuit
SVCC
SVCC
20k
20k
1k
1k
0.05k
44
RESX
43
SVCC
SVCC
0.05k
50k
43
50k
REG0X
41
SVCC
SVCC
0.05k
41
1k
REGX
42
SVCC
SVCC
42
0.05k
0.5k
60k
25k
8
FAN8037 (KA3037)
Absolute Maximum Ratings ( Ta=25°°C)
Parameter
Symbol
Value
Unit
SVCCMAX
18
V
PVCC1
18
V
PVCC2
18
V
PD
3note
W
Operating Temperature
TOPR
−35 ~ +85
°C
Storge Temperature
TSTG
−55 ~ +150
°C
Maximum Output Current
IOMAX
1
A
Maximum Supply Voltage
Power Dissipation
Notes:
1. When mounted on 70mm × 70mm × 1.6mm PCB
2. Power dissipation reduces 24mW/°C for using above TA = 25°C
3. Do not exceed PD and SOA (Safe Operating Area)
Pd (mW)
3,000
2,000
1,000
0
0
25
50
75
100
125
150
175
Ambient temperature, Ta [°C]
Recommended Operating Conditions ( Ta=25°°C)
Parameter
Operating Supply Voltage
Symbol
Min.
Typ.
Max.
Unit
SVCC
4.5
-
13.2
V
PVCC1
4.5
-
SVCC
V
PVCC2
4.5
-
SVCC
V
9
FAN8037 (KA3037)
Electrical Characteristics
(SVCC = PVCC1 = PVCC2 = 8V, TA = 25°C, unless otherwise specified)
Parameter
Symbol
Conditions
Quiescent circuit current
ICC
Under no-load
Power save on current
IPS
Pin21=GND
Min.
Typ.
Max.
Units
15
25
35
mA
-
1
2
mA
Stand by on voltage
VSBON
Pin20=Variation
-
-
0.5
V
Stand by off voltage
VSBOFF
Pin20=Variation
2
-
-
V
Power save on voltage
VPSON
Pin21=Variation
-
-
0.5
V
Power save off voltage
VPSOFF
Pin21=Variation
2
-
-
V
All mute on voltage
VMON
Pin22=Variation
-
-
0.5
V
All mute off voltage
VMOFF
Pin22=Variation
2
-
-
V
DRIVER CIRCUIT (RL=12Ω
Ω)
Output offset voltage
VOO
VIN=2.5V
−80
-
+80
mV
Maximum output voltage 1
VOM1
VCC=PVCC1=PVCC2=8V, RL=12Ω
5.5
6.5
-
V
Maximum output voltage 2
VOM2
VCC=PVCC1=PVCC2=13V, RL=24Ω
10.5
11.5
-
V
Closed-loop voltage gain
AVF
VIN=0.1Vrms,f=1kHz
10.5
12
13.5
dB
Slew rate
SR
Square, Vout=4Vp-p,f=120kHz
-
2
-
V/µs
INPUT OPAMP CIRCUIT
Input offset voltage
Input bias current
VOF
-
−30
-
+30
mV
IB
-
-
-
300
nA
High level output voltage
VOH
RL=Open
7.2
7.7
-
V
Low level output voltage
VOL
RL=Open
-
0.2
0.5
V
Output sink current
ISINK
RL=50Ω
2
4
-
mA
ISOURCE
RL=50Ω
2
4
-
mA
VIN=−75dB
-
70
-
dB
Square, Vout=2Vp-p, f=120kHz
-
2.5
-
V/µs
Output source current
Open loop voltage gain
Slew rate
GVO
SR
10
FAN8037 (KA3037)
Electrical Characteristics (Continued)
(SVCC = PVCC1 = PVCC2 = 8V, TA = 25°C, unless otherwise specified)
Parameter
Symbol
Conditions
Min.
Typ.
Max.
Units
-
2
-
-
V
TRAY, CHANGER,PANEL DRIVE CIRCUIT (RL=45Ω
Ω)
Input high level voltage
VIH
Input low level voltage
VIL
-
-
-
0.5
V
Output voltage 1
VO1
VCC=8V, VCTL=2.5V, RL=12Ω
-
5
-
V
Output voltage 2
VO2
VCC=8V, VCTL=3V, RL=45Ω
-
6
-
V
Output voltage 3
VO3
VCC=13V, VCTL=4.5V,
RL=45Ω
-
9
-
V
Output load regulation
∆VRL
VCTL=3V, IL=100mA → 400mA
-
300
700
mV
Output offset voltage 1
VOO1
VIN=5V, 5V
−40
-
+40
mV
Output offset voltage 2
VOO2
VIN=0V, 0V
−40
-
+40
mV
∆VRL
IL=0 → 200mA
−40
0
+10
V
VARIABLE REGULATOR CIRCUIT
Load regulation
Line regulation
∆VCC
IL=200mA, VCC=6V → 9V
−20
0
+30
mV
Regulator output voltage 1
VREG1
IL=100mA
4.75
5.0
5.25
V
Regulator output voltage 2
VREG2
IL=100mA
3.135
3.3
3.465
V
Regulator reset on voltage
Reson
Pin43=Varivation
-
-
0.5
V
Regulator reset off voltage
Resoff
Pin43=Varivation
2
-
-
V
11
FAN8037 (KA3037)
Application Information
1. THERMAL SHUTDOWN
SVCC
• When the chip temperature reaches to 175°C, then the TSD circuit is
activated.
• This shuts down the bias current of the output drivers, and all the
output drivers are in cut-off state. Thus the chip temperature begins to
decrease.
• when the chip temperature falls to 150°C, the TSD circuit is
deactivated and the output drivers are normally operated.
• The TSD circuit has the hysteresis temperature of 25°C.
IREF
Output driver
bias
R1
Q0
R2
Hysteresis
Ihys
R3
2. ALL MUTE FUNCTION
• When the pin22 is high, the TR Q1 is turned on and Q2 is off, so the
bias circuit is enabled. On the other hand, when the pin22 is Low
(GND) , the TR Q1 is turned off and Q2 is on, so the bias circuit is
disabled.
• This function will cause all the output drivers to be in mute state.
• Truth table is as follows;
Pin#22
FAN8037
HIGH
MUTE-OFF
LOW
MUTE-ON
Bias blocks
(4-Ch BTL
and 3-Ch logic
loading)
SVCC
Q2
22
Q1
3. POWER SAVE FUNCTION
• When the pin21 is high, the TR Q3 is turned on and Q4 is off, so the
bias circuit is enabled. On the other hand, when the pin21 is Low
(GND) , the TR Q3 is turned off and Q4 is on, so the bias circuit is
disabled.
• That is, this function will cause all the circuit blocks of the chip except
for the variable regulator to be in the off state. thus the low power
quiescent state is established
• Truth table is as follows;
Pin#21
FAN8037
HIGH
POWER SAVE OFF
LOW
POWER SAVE ON
12
SVCC
Main Bias
(except for
variable reg.)
Q4
21
Q3
FAN8037 (KA3037)
4. STANDBY FUNCTION
• When the pin20 is high, the TR Q5 is turned on and Q6 is off, and the
bias circuit is enabled. On the other hand, when the pin20 is Low
(GND) , the TR Q5 is turned off and Q6 is on, and the bias circuit is
disabled.
• This function will cause the output drivers of the 4-CH BTL circuit
(Focus, Tracking, Spindle, Sled) to be in off state.
• Truth table is as follows
Pin20
KA3037
HIGH
STANDBY OFF
LOW
STANDBY ON
SVCC
Bias block
(4-CH BTL
output driver)
Q6
20
Q5
5. REGULATOR & RESET FUNCTION
The regulator and reset circuits are illustrated in the figure 1.
• The external circuit is composed of the PNP transistor(KSB772), capacitor(about 33µF) and 2 feedback resistors.
• The capacitor is used as a ripple filter and should have good temperature characteristics.
• The regulator output voltage is determined as follows.
VREG = (1+R1/R2) × 2.5
• When the voltage of the pin 43 (Vreset) is high, the regulator circuit operates normally. If the voltage of pin 43 is low, the
regulator circuit is disabled .
SVCC
KSB772
VREG
33µF
Vreset
R1
R2
43
2.5V
42
41
40
−
+
FAN8037
Figure 1. Regulator circuit
13
FAN8037 (KA3037)
6. FOCUS, TRACKING ACTUATOR, SPINDLE, SLED MOTOR DRIVE PART
R2
R1
OPin+
OPin-
46
1
4
7
47
2
5
8
48
3
6
9
Vref
−
Vin
+
−
R1
Vp
R2
44
DOP
+
R2
37
34 32
38
36
33 31
M
R2
R1
39
+
DON
−
R2
PVCC1
Dp
60k
+
Vp
−
62k
Qp
• Vref is given by the external bias voltage of the pin 44.
• The input signal (Vin) through pins 46,1,4 and 7 is amplified one time and then fed to the output stage.
(assume that input opamp was used as a buffer)
• The total closed loop voltage gain is as follows
Vin = Vref + ∆V
DOP = Vp + 2 ∆V
DON = Vp – 2 ∆V
Vout = DOP – DON = 4 ∆V
Vout
Gain = 20 log ------------- = 20 log 4 = 12dB
∆V
• To change the total closed loop voltage gain, use the input opamp as an amplifier
• The output stage is the balanced transformerless (BTL) driver.
• The bias voltage Vp is expressed as ;
62k
Vp = ( PVCC1 – VDp – VcesatQp ) × -------------------------- + VcesatQp
60k + 62k
PVCC1 – VDp + VcesatQp
= --------------------------------------------------------------------------- + VcesatQp
1.97
14
----------
(1)
FAN8037 (KA3037)
7. TRAY, CHANGER,PANEL MOTOR DRIVE PART
out 1
out 2
25 27 30
M
24 26 29
D
D
LEVEL SHIFT
6.5V
M.S.C
CTL1,2,3
V(out1,out2)
10 13 19
S.W
0
IN
VCTL
IN
FWD
11 14 17
3.25V
REV
12
15 18
• Rotational direction control
The forward and reverse rotational direction is controlled by FWD (pin 11,14, 17) and REV (pin 12,15,18) and the input
conditions are as follows.
INPUT
OUTPUT
FWD
REV
OUT 1
OUT 2
State
H
H
Vp
Vp
Brake
H
L
H
L
Forward
L
H
L
H
Reverse
L
L
-
-
Hign impedance
• Where Vp(Power reference voltage) is approximately about 3.75V at PVCC2=8V ) according to equation (1).
• Where out1 pins are pins24,26,29 and out2 pins are pins25,27,30
• Motor speed control (When SVCC=PVCC2=8V)
- Maximum torque is obtained when the pins (10,13 and 19 (CTL1, 2, 3)) are open.
- If the voltages of the pins (10,13 and 19 (CTL1, 2, 3)) are 0V, the motor will not operate.
- When the control voltage of the pins 10,13 and 19 (CTL1, 2, 3) are between 0 and 3.25V, the differential output
voltage(V(out1,out2)) is about two times of control voltage. Hence, the control to the differential output gain is two.
- When the control voltage is greater than 3.25V, the output voltage is saturated at the 6.5V due to the output swing
limitation.
15
FAN8037 (KA3037)
8. BOOTSTRAPPED OPERATION
• IC has two kinds of power supplies, the power supply , SVCC is for
predrivers and the other circuit blocks(SVCC). PVCC1 and PVCC2 are for
the power transistors.
• When SVCC=PVCCn (n=1,2), no bootstrapped operation occurs. Thus the
single-ended maximum output voltage is
SVCC
PVCC
Q3
SVCC – ( VcesatQ3 + Vbe1 ) ≅ SVCC – 1V
Q1
• If larger output swing is requied, use the bootstrap function. When
the bootsrap function is operated.
SVCC > PVCCn + 1V
• In this mode, the single-ended maximum output voltage is
PVCCn – VcesatQ1 ≅ PVCCn – 0.5 ; Thus wide output dynamic range
can be obtained.
Vout
Q2
PreDriver
(PD)
16
Power TRs
FAN8037 (KA3037)
Typical Performance Characteristics
VCC & ICC
ICC (mA)
TEMP & ICC
ICC (mA)
40
40
35
35
30
30
25
25
20
20
15
15
10
10
5
5
0
0
VCC=4.5V
VCC=13.2 V
VCC=8V
4
6
8
10
12
14
16
18
-50
-30
-10
10
30
50
VCC (V)
90
110
TEMP (°C)
VCC & VOM1
VOM1 (V)
70
VCC & VOM2
14
14
VOM2 (V)
12
12
10
10
8
8
6
6
4
VOM1_CH2
2
6
8
10
12
VO M2_C H3
VO M2_C H4
0
VOM1_CH4
4
VO M2_C H2
2
VOM1_CH3
0
VO M2_C H1
4
VOM1_CH1
4
14
6
8
10
12
VCC (V)
8
VOUT (V)
14
VCC (V)
IOM & VOUT
AVF (dB)
7
VCC & AVF
13
6
CH 1_UPP
5
11
CH 1_LOW
CH 2_UPP
4
9
CH 2_LOW
3
CH 3_UPP
CH 3-LOW
2
7
CH 4_UPP
1
CH 4_LOW
5
0
0
0.2
0.4
0.6
0.8
4
1
6
8
10
12
14
VCC (V)
IOM (A)
17
FAN8037 (KA3037)
Typical Performance Characteristics (Continued)
TEMP & VOM
VOM(V)
VCC & VO1
VO1 (V)
6
12
5
4
8
3
2
4
VO_CH5
VO_CH6
1
VOM1
VO_CH7
VOM 2
0
-50
0
-30
-10
10
30
50
70
90
110
6
8
10
12
TEMP (°C)
14
Vctl & VO (Loading)
VO(V)
14
VCC (V)
12
12
VO(V)
TEMP & VO (Loading)
10
10
8
8
6
6
4
4
VO1
2
VO_12 ohm
2
VO2
VO_24 ohm
VO3
0
-50
0
0
2
4
6
-30
-10
10
30
50
70
Vctl (V)
6
VREG(V)
6
5
5
4
4
3
3
2
2
8
10
12
VREG1
VREG2
VREG2
0
-50
0
6
TEMP & VREG
VREG(V)
1
VREG1
4
110
TEMP (°C)
VCC & VREG
1
90
14
-30
-10
10
30
50
70
90
110
TEMP (°C)
VCC (V)
18
FAN8037 (KA3037)
Typical Performance Characteristics (Continued)
7
Isource (mA)
VCC & Isource
50
VCC & Isink
Isink (mA)
45
6
40
5
35
4
30
25
3
20
2
15
10
1
5
0
0
4
6
8
10
12
14
4
VCC (V)
6
8
10
12
14
VCC (V)
19
FAN8037 (KA3037)
Test Circuits
VCC
50Ω
1
VREF
2.5V
R2
2
100µF +
22µF +
IL
+ 1000µF
OP IN (+)
R1
RIPPLE
OP IN (-)
RL1
39
38
RL2
37
DO2+
REGX
2 IN2.2
OP OUT
40
DO1−
41
DO1+
42
PVCC1
43
RESX
44
VREF
45
SVCC
46
REGOX
OP IN (-)
47
IN1.1
OP IN (+)
48
IN1.2
IN2.1
1
OUT1
OP OUT
DO2-
36
PGND2 35
3 OUT2
DO3+ 34
OP IN (+)
4 IN3.1
DO3− 33
OP IN (-)
5 IN3.2
DO4+ 32
OP OUT
6 OUT3
DO4− 31
RL3
RL4
FAN8037
OP IN (+)
7 IN4.1
DO5+ 30
OP IN (-)
8 IN4.2
DO5− 29
RL5
PS
MUTE
PVCC2
13
14
15
16
17
18
19
20
21
22
23
DO7−
SB
12
CTL3
DO6−
REV3
11 FWD1
FWD3
DO6+ 27
SGND
REV1
IN1B
10 CTL1
REV2
IN1A
PGND1 28
FWD2
CTL1
9 OUT4
CTL2
OP OUT
IL
RL6
26
DO7+
IL
25
24
RL7
IL
CTL2 IN2A IN2B
IN3A IN3B
IL
CTL3
OP-AMP PART
OPIN(+)
OPIN(−)
A
B
OPOUT
D
1
VPULSE
2
3
VA
1
2
3
VOUT
50Ω
VB
C
1
20
2
IL
VCC
IL
FAN8037 (KA3037)
Typical Application Circuits 1
[Voltage control mode]
VCC
REGOUT
R2
+
22µF
R1
48
47
46
45
44
43
42
41
40
39
38
37
IN1.2
IN1.1
SVCC
VREF
RESX
REGX
REGOX
PVCC1
DO1+
DO1−
DO2+
1
TRACKING
OUT1
IN2.1
FOCUS
2 IN2.2
36
DO2−
PGND2 35
3 OUT2
DO3+ 34
4 IN3.1
DO3− 33
5 IN3.2
DO4+ 32
6 OUT3
DO4− 31
M SLED
M SPINDLE
FAN8037
7 IN4.1
DO5+ 30
8 IN4.2
DO5− 29
9 OUT4
PGND2 28
10 CTL1
DO6+ 27
11 FWD1
DO6− 26
M TRAY
REV2
SGND
FWD3
REV3
CLT3
SB
PS
MUTE
PVCC2
13
14
15
16
17
18
19
20
21
22
23
DO7−
FWD2
12
REV1
CTL2
M CHANGER
24
DO7+
25
M PANEL
ALL MUTE
POWER SAVE
FOCUS, TRACKING, SLED
SPINDLE MUTE
VREF
FOCUS TRACKING SLED SPINDLE
INPUT
INPUT INPUT INPUT
[SERVO PRE AMP]
TY CG PL TRAY CHANGER PANEL
INPUT
CONTROL INPUT
INPUT
[CONTROLLER]
Notes:
Radiation pin is connected to the internal GND of the package.
Connect the pin to the external GND.
21
Where TY is tray motor.
CG is changer motor
PL is panel motor
FAN8037 (KA3037)
Typical Application Circuits 2
[Differential PWM control mode ]
VCC
REGOUT
R2
+
22µF
R1
48
47
46
45
44
43
42
41
40
39
38
37
IN1.2
IN1.1
SVCC
VREF
RESX
REGX
REGOX
PVCC1
DO1+
DO1−
DO2+
1
TRACKING
OUT1
IN2.1
FOCUS
2 IN2.2
36
DO2−
PGND2 35
3 OUT2
DO3+ 34
4 IN3.1
DO3− 33
5 IN3.2
DO4+ 32
6 OUT3
DO4− 31
M SLED
M SPINDLE
FAN8037
7 IN4.1
DO5+ 30
8 IN4.2
DO5− 29
9 OUT4
PGND2 28
10 CTL1
DO6+ 27
11 FWD1
DO6− 26
M TRAY
REV2
SGND
FWD3
REV3
CLT3
SB
PS
MUTE
PVCC2
13
14
15
16
17
18
19
20
21
22
23
DO7−
FWD2
12
REV1
CTL2
M CHANGER
24
DO7+
25
M PANEL
ALL MUTE
POWER SAVE
FOCUS, TRACKING, SLED
SPINDLE MUTE
VREF
FOCUS TRACKING SLED SPINDLE
INPUT
INPUT INPUT INPUT
[SERVO PRE AMP]
TY CG PL TRAY CHANGER PANEL
CONTROL INPUT
INPUT INPUT
[CONTROLLER]
Notes:
Radiation pin is connected to the internal GND of the package.
Connect the pin to the external GND
22
Where TY is tray motor.
CG is changer motor
PL is panel motor
FAN8037 (KA3037)
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 THE PRESIDENT OF FAIRCHILD SEMICONDUCTOR
INTERNATIONAL. As used herein:
1. Life support devices or systems are devices or systems
which, (a) are intended for surgical implant into the body,
or (b) support or sustain life, and (c) whose failure to
perform when properly used in accordance with
instructions for use provided in the labeling, can be
reasonably expected to result in a significant injury of the
user.
2. A critical component in any component of a life support
device or system whose failure to perform can be
reasonably expected to cause the failure of the life support
device or system, or to affect its safety or effectiveness.
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