SIPEX SP8126B

SP8126B
PRELIMINARY
High Speed Differential APC Amplifier
FEATURES
■
■
■
■
■
■
■
■
Dual Wavelength
Slew Rate of 300V/µs
Fast Settling Time - 7ns
Gain Control
2V Output Swing
Low Offset Voltage: < 10mV
Low Offset Drift: < 20µV/°C
12dB External Gain Adjust Range
VCC
1
GAIN
2
RGCOM
3
GND
4
SP8126B
8 Pin COB
8
VOUT +
7
VOUT -
6
RGAIN2
5
RGAIN1
APPLICATIONS
■ DVDRW
■ DVDRAM
■ CDRW
DESCRIPTION
The SP8126B is a high-speed, differential output APC amplifier that integrates the photodiode
and adjustable gain block on one chip. Independent gain control allows individual adjustment for
780mn and 650nm wavelength operation, as found in CD/DVD optical storage drives. This allows
the user to control the laser power of the system in high-speed DVDRW, DVDRAM and CDRW
systems. The wide 2V output swing also allows better system performance, through improved
dynamic range.
GAIN
VCC
+
VOUT+
Buffer
GND
TIA
50pF
500
R3
500
Gain Control
+
1VP-P
R1
(Depend
on FPC)
R2
500
Buffer
+
(Flexible Flat Cable)
VOUT1VP-P
50pF
RGCOM
RGAIN1
1k
1k
RGAIN2
RG1
RG2
Figure 1. SP8126B Functional Diagram and Typical Application
Rev:B Date: 3/18/04
SP8126B High Speed Differential APC Amplifier
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© Copyright 2004 Sipex Corporation
ABSOLUTE MAXIMUM RATINGS
TJ(MAX) ........................................................................................ 120°C
VS(MAX) ............................................................................................... 6V
VIN(MAX) .............................................................................................. 6V
These are stress ratings only and functional operation
of the device at these ratings or any other above those
indicated in the operation sections of the specifications
below is not implied. Exposure to absolute maximum
rating conditions for extended periods of time may
affect reliability.
Power Supply Voltage
Continuous Power Dissipation (TAMB = 70°C)
COB (derate 13.3mW/°C above +70°C) ......... 90mW
ELECTRICAL SPECIFICATIONS
Unless otherwise noted: VCC = 5.0V, CLOAD = 50pF to GND, RLOADP = RLOADN = 1kΩ to GND, RGAIN = 510Ω
(Nominal Gain), -20°C ≤ TA ≤ +85°C, Output measured differentially.
PARAMETER
CONDITIONS
Supply Voltage
MIN
TYP
MAX
UNITS
4.5
5
5.5
V
2400
3000
3600
V/W
Output Sensitivity
Laser Beam Diameter = 0.70mm,
uniform density
Output Sensitivity vs. Temp
RGAIN=1230Ω
0.1
%/C
Output Sensitivity vs. Vcc
RGAIN=1230Ω
2
%/V
800
µW
Input Optical Power Required
to Produce 2V Output Swing
Full Scale Linear Output
Voltage Swing
Output Common Mode Voltage
4.5V < Vcc < 5.5V
Output Offset Voltage
2.8
2.3
2.5
Vcc/2.2
Vcc/2
V
2.7
Vcc/1.8
V
V
10
mV
-20
1.0
20
mV
-25
-11
25
µV/C
-50
-13
50
µV/C
BW = 100MHz
1.6
2
mVrms
BW = 100MHz,
RGAIN = 1230Ω (High Gain)
2.4
5
mVrms
RGAIN = 1230Ω (High Gain)
PSRR
2
0.5
Output Offset Voltage Drift
Bandwidth
666
-10
RGAIN = 1230Ω (High Gain)
Output Noise
533
-3dB
70
100
MHz
-3dB, RGAIN = 1230Ω (High Gain)
50
68
MHz
4.5V < Vcc < 5.5V
55
76
dB
4.5V < Vcc < 5.5V,
RGAIN = 1230Ω (High Gain)
50
73
dB
Output Settling Time(650nm)
2VPPStep
7
10
ns
(1% of Final Value)
2VPP Step,
RGAIN = 1230Ω (High Gain)
12
15
ns
Rev:A Date: 3/18/04
SP8126B High Speed Differential APC Amplifier
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© Copyright 2004 Sipex Corporation
ELECTRICAL SPECIFICATIONS: Continued
Unless otherwise noted: VCC = 5.0V, CLOAD = 50pF to GND, RLOADP = RLOADN = 1kΩ to GND, RGAIN = 510Ω
(Nominal Gain), -20°C ≤ TA ≤ +85°C, Output measured differentially.
PARAMETER
CONDITIONS
Output Settling Time (780nm)
(1% of Final Value)
MIN
TYP
MAX
UNITS
2VPP Step
10
13
ns
2VPP Step,
RGAIN = 1230Ω (High Gain)
15
18
ns
Output Slew Rate
Output Overshoot
200
2VPP Step
V/µs
5
Power Supply Current
15
-20°C < TA < +85°C
Gain Adjust Range
300
225Ω < RGAIN < 1230Ω
-6
Gain Select Input Voltage
VIL (TTL Level)
Gain Select Input Voltage
VIH (TTL Level)
%
mA
20
mA
6
dB
0.8
V
2.0
V
PIN DESCRIPTION
PIN NUMBER
1
2
3
4
5
6
7
8
NAME
VCC
GAIN
RGCOM
GND
RGAIN1
RGAIN2
VOUTVOUT+
FUNCTION
Supply Voltage
Gain Select
Common connection point for RGAIN1 and RGAIN2
Power Ground
Gain Adjust 1 (Gain Select = LOW) or OPEN
Gain Adjust 2 (Gain Select = HIGH)
Output Voltage Output Voltage +
THEORY OF OPERATION
Internal Operation
The SP8126B APC circuit has an integrated
photo detector and is designed with nominal
sensitivities of 3mV/µW for both 650nm and
780nm wavelength laser light. The part's sensitivity can also be adjusted continuously and
independently for two different gain modes via
two external resistors over a range of ±6dB. The
two gain modes are controlled by a TTL compatible logic input, called GAIN SELECT. This
logic pin selects between the two external gain
setting resistors to allow independent control
and settings for the two gain functions.
The system is a two stage design, consisting of
a Trans-Impedance Amplifier (TIA) and an output buffer stage. In dark condition the outputs
VOUT- and VOUT+ are set to a reference voltage
Rev:B Date: 3/18/04
that is defined internally as Vcc/2. With 650nm
or 780nm wavelength laser light falling on the
photodetector, the output will swing differentially around Vcc/2 proportional with the light
power according to the chosen gain.
TIA and Gain control
The first stage is a differential TIA used to
convert the photodetector current to a balanced
differential voltage. The traditional fixed feedback resistors have been replaced with an active
resistor circuit that sets the trans-impedance value.
A Resistor Control Block that senses the value
of the external gain setting resistor controls the
value of the equivalent feedback resistor.
SP8126B High Speed Differential APC Amplifier
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© Copyright 2004 Sipex Corporation
THEORY OF OPERATION: Continued
The ±6dB Gain adjustment is therefore done
directly in the TIA, by adjusting the active
feedback blocks proportional with the gain setting resistor. The external resistor is not directly
in the signal path, and therefore any parasitic
from the off-chip connections does not affect
the signal quality. The value of the active feedback is controlled tightly over supply and temperature changes through a Control Block with
active feedback circuitry.
Gain control is proportional with the external
resistor, so the lowest value of RGAIN will produce the -6dB gain adjustment and the highest
value will produce the +6dB gain adjustment.
Please consult the specification table for the
required RGAIN values.
7.0k
6.0k
5.0k
4.0k
3.0k
2.0k
1.0k
0.0k
0.0
250
500
750
1.0k
1.25K
1.5k
RGAIN
Figure 2. Sensitivity versus RGAIN
Buffer
This stage buffers the differential signal from
the TIA to the VOUT pins and refers the signal to
the internal reference voltage. A balanced current feedback amplifier is used for this purpose
to achieve high slew rate and fast settling.
The buffer is designed to drive high capacitive
loads. The maximum load is 50pF bulk. The
actual load is typically a flexible printed circuit
(FPC) that acts like a transmission line. This
presents a distributed capacitive load plus inductance and resistance. In this case care should be
taken to match the characteristic impedance of the
line at the far end to avoid standing waves and
ringing. The buffer is designed to drive 1kΩ to
ground. However, this resistor can be adjusted in
value to accommodate the characteristic impedance of the signal trace. The output buffer amplifier is designed to be stable without load and with
loads up to 50pF lumped capacitance.
180M
-9.5dB
160M
-6.0dB
140M
0.0dB
(Hz)
120M
100M
80M
6 .0dB
60M
40M
0.0
250
500
750
1.0k
1.25K
1.5k
RGAIN Ω
Figure 3. Bandwidth versus RGAIN
TABLE 1: APC SYSTEM TARGET GAIN SET POINTS.
VOUTP-VOUTN = 2VP-P, VCC = 5V, T = 27°C
Gain
(dB)
Sensitivity
(V/W)
RGAIN
(Ω)
Ts 1%
(nS)
BW
(MHz)
Pin
(µW)
+6
6000
1230
12
68
335
0
3000
510
7
119
666
-6
1500
225
5.5
160
1331
Rev:A Date: 3/18/04
SP8126B High Speed Differential APC Amplifier
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© Copyright 2004 Sipex Corporation
LAYOUT AND ROUTING CONSIDERATIONS
capacitor should be 0.1µF ceramic. C2 is optional to improve decoupling and is recommended to be 1µF tantalum. The layout of the
PCB is pictured here. Note the wide and short
traces on the supply lines.
The traces for the gain resistors RGAIN1 and
RGAIN2 are kept as short as possible to avoid
excessive parasitics. Any parasitics on these
nodes will limit the performance of the system.
RGAIN1 and RGAIN2 are subminiature potentiometers in the application. This is a single layer
board using FR4 material.
In order to minimize coupling capacitance into
the gain setting resistor nodes, it is also critical
that VOUT+ and VOUT- are routed away from the
traces associated with the gain-setting resistors.
A major consideration in developing the optical
pick-up head system is the extremely small form
factor, which is additionally aggravated by the
physical locations required by the light path.
Special care must be taken when designing the
Flex or PCB for this part. The output peak
current requirement is in the order of 12.5mA
when driving 50pF of capacitive load with a
slew rate of 250V/µs Therefore care must be
taken to provide low inductance, low resistance
paths for power and ground and output traces.
Supply coupling is also very important. Good
supply decoupling is important to ensure the
high frequency performance of the system by
eliminating supply lead inductance effects. The
decoupling capacitor C1, as shown in Figure 5,
should be as close to the part as possible. This
Top
Bottom
Figure 4. Test and Evaluation PCB Layout for COB 8 Lead Package
Rev:B Date: 3/18/04
SP8126B High Speed Differential APC Amplifier
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© Copyright 2004 Sipex Corporation
+5V
VOUT+
+
C1
0.1µF
VCC
GAIN
GAIN
RGCOM
GND
1
8
2
SP8126B
7
3
6
4
5
VOUT+
10
RL1
1k
VOUTRGAIN2
10
RL2
1k
+
+
CL1
50pF
CL2
50pF
RGAIN1
VOUT-
RG1
510
RG2
510
Figure 5. Test and Evaluation Schematic
Rev:A Date: 3/18/04
SP8126B High Speed Differential APC Amplifier
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© Copyright 2004 Sipex Corporation
0.090mm
1
8
2
7
3
6
4
5
b
0.600
D
e
F
S
H
PIN
SIDE VIEW
TOP VIEW
L
BOTTOM VIEW
DIMENSIONS in
mm
Min/Max
E
2X)
5° (
8–PIN
COB
A
B
0.90/1.10
A
B
0.127/0.33
C
b
0.30/0.50
SIDE VIEW
C
0.50 nom
D
2.90/3.10
DETECTOR SIZE
E
0.35mm
3.00/3.20
e
0.75 nom
H
3.40/3.60
L
0.70mm
0.40/0.60
0.28/0.48
0.28/0.48
S
0.075/0.275
8 PIN COB
(3.0mm X 3.5mm)
Detector Area
Rev:B Date: 3/18/04
FF
SP8126B High Speed Differential APC Amplifier
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© Copyright 2004 Sipex Corporation
ORDERING INFORMATION
Part Number
Temperature Range
Package Type
SP8126CB-3 ........................................... -20°C to +85°C .............. 8 lead COB (3.0mm x 3.5mm)
Corporation
ANALOG EXCELLENCE
Sipex Corporation
Headquarters and
Sales Office
233 South Hillview Drive
Milpitas, CA 95035
TEL: (408) 934-7500
FAX: (408) 935-7600
Sales Office
22 Linnell Circle
Billerica, MA 01821
TEL: (978) 667-8700
FAX: (978) 670-9001
e-mail: [email protected]
Sipex Corporation reserves the right to make changes to any products described herein. Sipex 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.
Rev:A Date: 3/18/04
SP8126B High Speed Differential APC Amplifier
8
© Copyright 2004 Sipex Corporation