SONY CXA1940N

CXA1940N
4ch. Read/Write Amplifier for Thin Film Head of Hard Disk Drive
For the availability of this product, please contact the sales office.
Description
The CXA1940N is a Read/Write Amplifier for the
thin film head of hard disk drives and designed to
handle up to 4-channel heads.
Features
• Operate on single +5V power supply.
• Low power consumption.
Read : 95mW
Write (IW=20mA) : 130mW+IW × 5
Power save : 5.5mW
• Write current can be varied through an external
resistor. Built-in stabilizing circuit provides stable
current during voltage and temperature drift.
• Drives up to 4 heads.
• Designed for two-terminal thin-film or MIG heads.
• Built-in power save function.
• Read amplifier emitter follower output featuring
290 times gain (Typ.).
• Built-in Write unsafe detection circuit.
• Built-in supply voltage monitor circuit prohibits
incorrect Write during power on or abnormal
voltage.
• Built-in IC protection circuit for short of head and
GND.
• Differential input capacitance for Read : 14pF
(Typ.).
• Write data input minimum pulse width : 10ns
• Read data output become high impedance in write
mode to improve read data offset when switching
from write to read mode.
• Unselected head DC voltage is GND potential.
• Self switching damping resistance (RD=310Ω)
20 pin SSOP (Plastic)
Block Diagram and Pin Configuration
GND
1
20 PS
DRIVER
H0X
2
H0Y
3
H1X
4
H1Y
5
H2X
6
MODE
CONTROL
19 R/W
AMP
WRITE
CURRENT
SOURCE
18 WC
DRIVER
17 RDY
AMP
AMP
16 RDX
DRIVER
15 HS0
HEAD
SELECT
H2Y
7
H3X
8
H3Y
9
NC
10
AMP
DRIVER
14 HS1
POWER
ON/OFF
DETECTOR
13 VCC
T-FF
12 WDI
WRITE
UNSAFE
DETECTOR
11 WUS
AMP
IC
PROTECTOR
Sony reserves the right to change products and specifications without prior notice. This information does not convey any license by
any implication or otherwise under any patents or other right. Application circuits shown, if any, are typical examples illustrating the
operation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits.
—1—
E93X03-TE
CXA1940N
Structure
Bipolar silicon monolithic IC
Function
Read, Write and Write unsafe detection for HDD, Power supply
ON/OFF detection.
Absolute Maximum Rating (Ta=25°C)
• Supply voltage
VCC
• Write current
IW
• Operating temperature
Topr
• Storage temperature
Tstg
• Allowable power dissipation
PD
7
25
–20 to +75
–55 to +150
375
V
mAo-p
°C
°C
mW
Recommended Operating Conditions
• Supply voltage
VCC
• Write current
IW
5V±10
5 to 20
%
mAo-p
—2—
CXA1940N
Pin Description
No.
Symbol
1
GND
2
3
4
5
6
7
8
9
H0X
H0Y
H1X
H1Y
H2X
H2Y
H3X
H3Y
10
Equivalent circuit
Description
VCC
2
4
6
2k
2k
Head.
4 channels provided.
8
3
5
7
9
GND
NC
VCC
11
WUS
Write unsafe detection output.
Open collector output. When it is
off in Write mode, it means an
error is detected.
11
GND
VCC
12
WDI
Write data input.
At “High” → “Low”,
input is triggered.
12
1.4V
2.1V
GND
13
VCC
14
15
HS1
HS0
VCC
14
19
R/W
15
19
20
PS
2.1V
20
GND
—3—
5V power supply
Head select signal input.
Selects one of 4 heads according
to Table 2.
Read/Write signal input.
At “High”: Read,
at “Low”: Write.
Power save signal input.
At “High”: Power save.
CXA1940N
No.
Symbol
Equivalent circuit
Description
VCC
16
17
RDX
RDY
16
Read Amplifier output.
17
GND
VCC
18
A setting resistor for the write
current value is connected
between this pin and GND.
WC
18
1.25V
GND
—4—
CXA1940N
Electrical Characteristics
No.
1-1
1-2
1-3
2-1
2-2
Item
Current consumption for Read
Current consumption for Write
Current consumption for Power save
Digital input “Low”
input voltage
Digital input “High”
input voltage
(Unless otherwise specified, VCC=5V, Ta=25°C, Write current IW=20mA)
SymSW Conditions
bol 1 2 3 4 5 6 7 8 9 101112 Measurement conditions Min.
Test point : I4
IR b a a a a b a a a a b a
12
IW
b a a a a b a a a a a a
IP
b a a a a b a a a a b b
input current
VIH
IIL
a a a a a a a a a a a a
IIH
a a a a a b a b b a b b
Digital input “High”
2-4
input current
Write unsafe output
3-1
saturation voltage
VWUS b a a a b c a a a a a a
Write unsafe output
3-2
leak current
IWUS b a a a e c a a a a a a
Supply power
4 ON/OFF detector
Test point : I4
VTH
threshold voltage
“High” applied voltage : 5V
range
Write current
6
tolerance
gain
Frequency
band width (–3dB)
17
+IW
26
+IW
35
+IW
mA
0.6
1.1
1.5
mA
0.8
V
2.0
V
–20
µA
Test point : I3, I5, I6, I7, I8
Output current : 1mA
Test point : V1
Test point : I2
When VCC is lowered
from 5V in Write mode
and IW does not flow
anymore, VCC voltage is
3.6
b a a a a b a a a a a a
set to VTHOFF. When
VCC is raised from 3V
and IW starts to flow, VCC
voltage is set to VTHON.
3.9
70
µA
0.5
V
20
µA
4.3
V
5
20
mAo-p
∆Iw b a a a a b a a a a a a
-8
8
%
AV
Input voltage SG1 :
1mVp-p, 300kHz
Load resistance (RDX,
b a a a c b a a a b b a
RDY) : 1kΩ
Test point : V4 [Vp-p]
AV=
8
mA
b a a a a b a a a a a a
IW
Read amplifier
7 differential voltage
26
“Low” applied voltage : 0V
Write current setting
5
19
Digital input :
Pins 12, 14, 15, 19, 20
VIL
Digital input “Low”
2-3
Test point : I4
Typ. Max. Unit
290
335 V/V
V4
SG1
BW b a a a c b a a a b b a Frequency at which AV
lowers by 3dB
—5—
245
30
MHz
CXA1940N
No.
9
Item
Input referred
noise
SymSW Conditions
Measurement conditions Min.
bol 1 2 3 4 5 6 7 8 9 101112
Head impedance : 0Ω,
when the read amplifier
output voltage is
amplified 100 times and
voltage passed though
EN a a a a a b a a a b b a a LPF (low pass filter of
cutoff frequency
15MHz) is VN [Vrms],
EN=
Typ. Max. Unit
0.55
0.7
nV
Hz
VN
100 • AV • 15 × 106
Test point : V5
In-phase input voltage
SG2 : 100mVp-p, 5MHz
When the Read
amplifier output is VCM
Common mode
10
CMRR b a a a d b a a a b b a [mVp-p],
rejection ratio
50
dB
50
dB
50
dB
CMRR=20 log 100
VCM
+20 log AV
11
Power Supply
rejection ratio
Test point : V4
Ripple voltage SG3 :
100mVp-p, 5MHz
When the Read
amplifier output is VP
PSRR a a a a a b b a a b b a [mVp-p],
PSRR=20 log 100
VP
+20 log
12
Channel
separation
CS
Test point : V4
Selected head input
voltage : 0mVP-P
Unselected head input
voltage SG1 : 100mVp-p,
5MHz
a b a a c b a a a b b a When the Read amplifier
output is VCS [mVp-p],
CS=20 log 100
VCS
+20 log AV
Test point : V4
Read data
VOFFR=V2–V3
13 output offset
VOFFR b a a a a b a a a a b a
Test point : V2, V3
voltage for Read
—6—
–200
200 mV
CXA1940N
Unless otherwise specified, VCC=5V, Ta=25°C, fWD (Write data frequency)=5MHz, IW=20mA, LH (Head
inductance)=1µH, RH (Head DC resistance value)=30Ω
Refer to Fig. 2 to Fig. 4
No.
Item
SymMeasurement conditions
Min. Typ. Max. Unit
bol
Vp-p
VSW Differential voltage between HX pin and HY pin 4.4 5.2
at switching of Write current
280 1000 kHz
FWUS FWUS is the max. Write data frequency when Pin
11 turns “High” in Write mode.
14 Head differential
voltage amplitude
15 Write unsafe
detection max.
frequency
16-1 Mode switching time TRW TRW is the time required for Write current to turn
Read to Write
to 90% after Pin 19 changes from “High” to
“Low”.
16-2 Mode switching time TWR TWR is the time required for either Write current
Write to Read
to decrease to 10% or for the Read amplifier
output∗ to turn to 90% after Pin 19 changes from
“Low” to “High”.
17-1 Mode switching time TSA1 TSA1 is the time required for Pin 11 to turn “High”
safe to unsafe
after the last transition of Write data when Write
data is stopped in Write mode.
17-2 Mode switching time TSA2 TSA2 is the time required for Pin 11 to turn “Low”
unsafe to safe
after the first transition of Write in Write mode.
18 Mode switching time TPR T PR is the time required for Read amplifier
Power save to Read
output to turn to 90% after Pin 20 changes from
“High” to “Low”.
19 Head switching time TH TH is the time required for the Read amplifier
output∗ to reach 90% when the selected head
switched in Read mode.
20 Write current
TPD T PD is the time required for Write current to
propagation delay
reach 90% after the Write data falling edge.
time
LH=0µH, RH=0Ω
21 Write current rise/fall TR/TF TR is the time required for Write current to reach
time
90% from 10%; TF is the same time required to
reach 10% from 90%. LH=0µH, RH=0Ω
∗Read amplifier output 100mVp-p 10MHz
—7—
3
7
5
0.6
µs
0.6
µs
11
µs
1.0
µs
1.0
µs
0.6
µs
30
ns
10
ns
CXA1940N
Test Circuit 1
1k
×100
LPF
1k
to 15MHz
V
VCC
5V
VCC
5V
AMP
×1
V5
b
AMP
V V4
1µ
S7
5V
0V
500kHz PG
V2
V
5V
a
1µ
V3
1µ
A I4
SG3
V
PG1
a b
a b
S12
b a
S11
A
a b
19
1
2
17
3
4
S1
a b
16
15
5
6
S2
a b
A
I5
14
a b
V1
V
13
7
8
A
I3
I2
12
11
9
10
S4
S3
a b
a b
5.1k
S6
A
I6
18
a b c
S8
A
I7
20
a b
S9
S10
8.2k
A
I8
b a
a b
a b
a b
S5
a b
e
c d
A
a
b c
e
d
0.1µ
I1
SG2
33
0.1µ
Fig. 1
0.1µ
SG1
Test Circuit 2
1k
×1
1k
AMP
5V
1µ
1µ
PG
5V
8.2k
PG
1µ
PG
5.1k
PG
0V
20
19
18
17
16
15
14
13
12
11
1
2
3
4
5
6
7
8
9
10
1µH
1µH
1µH
1µH
Fig. 2
Note) Write current is measured with current probe. Use an oscilloscope to test items related to time.
—8—
CXA1940N
Timing Chart 1
WDI
R/W
50%
50%
50%
PS
TWR
TRW
90%
90%
IWX
IWY
10%
10%
TPR
TWR
90%
RDX
RDY
90%
Fig. 3
Timing Chart 2
WDI
50%
50%
TPD
90%
90%
90%
IWX
IWY
10%
10%
TR
WUS
TF
TSA1
50%
50%
TSA2
Fig. 4
—9—
CXA1940N
Description Functions
Read amplifier
This is a low noise amplifier amplifying the signals from the head and is an emitter follower output. It outputs
to RDX and RDY pins differentially. The head X side and RDX pin, the head Y side and RDY pin have the
same polarity. RDX, RDY outputs become high impedance in write mode (when these outputs is AC coupled
to the load).
Write circuit
Write data which is input to WDI pin passes through a T flip-flop and frequency is divided into 1/2. It then
drives the Write switch circuit and flows Write current to the head.
Write data is triggered where from “High” to “Low” and Write current is switched.
Write current flows from X side when Read changes to Write.
Mode control
Modes are set as shown in Table 1 using R/W and PS pins.
R/W
PS
Mode
L
L
Write
H
L
Read
H
H
Power save
Table 1. Mode selection
Head selection
Heads are selected as shown in Table 2 using HS0 and HS1 pins.
HS0
HS1
Head
L
L
0
H
L
1
L
H
2
H
H
3
Table 2. Head selection
—10—
CXA1940N
Write unsafe detection circuit
Abnormal Write mode is detected.
In normal Write mode, WUS output turns to “Low” and in the following other conditions, WUS output turns to
“High”.
•
•
•
•
•
•
Head input is open.
Head input is shorted to GND.
Write data frequency is abnormally low.
No write current
In read
In power save
Power supply ON/OFF detection
VCC is monitored to avoid incorrecting Write.
Recording and Playback functions are inhibited as detected as abnormal when VCC decreases below the
power supply ON/OFF detector threshold voltage (VTH). When VCC is higher than VTH, the above inhibition is
released.
—11—
CXA1940N
Application Circuit
+5V
PULSE
DETECTOR
1µ
RW
8.2k
5.1k
20
19
18
17
16
15
14
13
12
1
2
3
4
5
6
7
8
9
LH
LH
LH
LH
1µH
1µH
1µH
1µH
11
10
NC
Application circuits shown are typical examples illustrating the operation of the devices. Sony cannot assume responsibility for any problems
arising out of the use of these circuits or for any infringement of third party and other right due to same.
—12—
CXA1940N
Notes on operation
• This device handles high frequency and high gain signals. Please note the following;
♦ Connect VCC decoupling capacitor of approximately 1000pF near the device.
♦ Make the GND area as large as possible.
• When using as 2-channel, short-circuit the X and Y sides of unused head pins or leave them open.
• Write data pulse width
Set the pulse width to 10ns or more at 1.5V to prevent misoperation.
• The WC pin is a constant voltage pin. When noise affects this pin, it creates noise in Write current.
Therefore, locate RW as close to the device as possible .
• Write unsafe detection circuit
This circuit uses the voltage waveforms of the head pins for detection.
1.5V
Wave form of write data
T1
Voltage waveform
of head pins (HX, HY)
VFB
VTH=2V
VTH
GND
♦ The condition of T1 >10ns must be met for the WUS detection circuit to operate properly.
♦ VFB must be more than 2V. When VFB < 2V, it is possible that Write unsafe detection maximum
frequency becomes more than 1MHz.
♦ The normal operating area of write unsafe detection circuit is changed by head inductance, head DC
resistance, write current and other.
—13—
CXA1940N
Application Notes
Use the following characteristics for reference.
VCC=5V, Ta=25°C
Symbol
Differential output capacitance CO
Item
Write mode
Differential output resistance
RO
Differential input capacitance
CI
Read mode Differential input resistance
RI
Conditions
Min.
Unselected head differential current in
Write mode
IUS
230
Between head input pins
f=5MHz
Unit
15
pF
310
390
Ω
14
20
pF
0.7
1.4
40
LH=1µH, RH=30Ω
Iw=20mA
TAS∗ LH=0µH, RH=0Ω
Iw=20mA
Write current symmetry
Max.
Between head input pins
RRD RDX or RDY, f=5MHz
Output resistance
Typ.
–1
kΩ
60
Ω
0.2
mAp-p
1
ns
∗TAS=T1—T2
IWX+IWY
50%
50%
T1
50%
T2
Setting of Write current
Write current can be set with resistor Rw (kΩ) at Pin 18.
Iw=K/Rw (mA) Refer to Fig. 5 and 6.
WC
18
RW
Fig. 6 Write current setting constant vs Write current
Fig.5 Write current vs. RW
148
K=Rw • IW
Write current setting constant K
IW -Write current (mA)
20
10
146
144
142
5
140
5
10
20
5
30
RW (KΩ)
10
15
Write current IW (mA)
—14—
20
CXA1940N
Fig. 8 Normalized write current
vs Ambient temperature
Fig.7 Normalized write current vs Supply voltage
VCC=5V
Ta=25°C
1.01
IW /IW (Ta=25°C)
IW /IW (VCC=5V)
1.01
1.00
1.00
0.99
0.98
0.99
4
5
6
Supply voltage VCC (V)
–25
7
0
25
50
Ambient temperature Ta (°C)
75
Fig. 10 Normalized read amplifier voltage gain
vs Ambient temperature
Fig. 9 Normalized read amplifier voltage gain
vs Supply voltage
1.02
Ta=25°C
VCC=5V
1.01
AV/AV (Ta=25°C)
AV/AV (VCC=5V)
1.01
1.00
1.00
0.99
0.99
0.98
4
5
6
Supply voltage VCC (V)
–25
7
Fig. 11 Power supply ON/OFF detector threshold
voltage vs Ambient temperature
Power supply ON/OFF
Detector Threshold Voltage (V)
4.0
OFF→ON
3.9
ON→OFF
3.8
–25
0
25
50
Ambient temperature Ta (°C)
75
—15—
0
25
50
Ambient temperature Ta (°C)
75
CXA1940N
Unit : mm
20PIN SSOP (PLASTIC)
+ 0.2
1.25 – 0.1
∗6.5 ± 0.1
0.1
20
11
A
1
6.4 ± 0.2
∗4.4 ± 0.1
10
+ 0.1
0.22 – 0.05
+ 0.05
0.15 – 0.02
0.65 ± 0.12
0.1 ± 0.1
0.5 ± 0.2
Package Outline
0° to 10°
DETAIL A
NOTE: Dimension “∗” does not include mold protrusion.
PACKAGE STRUCTURE
PACKAGE MATERIAL
EPOXY RESIN
SONY CODE
SSOP-20P-L01
LEAD TREATMENT
SOLDER / PALLADIUM
PLATING
EIAJ CODE
SSOP020-P-0044
LEAD MATERIAL
COPPER / 42 ALLOY
PACKAGE WEIGHT
0.1g
JEDEC CODE
—16—