Data Sheet
Comlinear CLC1008, CLC2008 0.5mA, Low Cost, 75MHz Rail-to-Rail Ampliers Rev 2C
Comlinear® CLC1008, CLC2008
0.5mA, Low Cost, 2.5 to 5.5V, 75MHz Rail-to-Rail Ampliers
Exar Corporation www.exar.com
48720 Kato Road, Fremont CA 94538, USA Tel. +1 510 668-7000 - Fax. +1 510 668-7001
FEATURES
n 505μA supply current
n 75MHz bandwidth
n Input voltage range with 5V supply:
-0.3V to 3.8V
n Output voltage range with 5V supply:
0.07V to 4.86V
n 50V/μs slew rate
n 12nV/√Hz input voltage noise
n 15mA linear output current
n Fully specied at 2.7V and 5V supplies
n Replaces AD8031 in VS ≤ 5 applications
APPLICATIONS
n Portable/battery-powered applications
n Mobile communications, cell phones,
pagers
n ADC buffer
n Active lters
n Portable test instruments
n Signal conditioning
n Medical Equipment
n Portable medical instrumentation
General Description
The COMLINEAR CLC1008 (single) and CLC2008 (dual) offer superior dynamic
performance with 75MHz small signal bandwidth and 50V/μs slew rate. These
ampliers use only 505μA of supply current and are designed to operate
from a supply range of 2.5V to 5.5V (±1.25 to ±2.75).The combination of
low power, high output current drive, and rail-to-rail performance make the
CLC1008 and CLC2008 well suited for battery-powered communication/
computing systems.
The combination of low cost and high performance make the CLC1008 and
CLC2008 suitable for high volume applications in both consumer and industrial
applications such as wireless phones, scanners, and color copiers.
Typical Performance Examples
Ordering Information
Part Number Package Pb-Free RoHS Compliant Operating Temperature Range Packaging Method
CLC1008IST5X SOT23-5 Yes Yes -40°C to +85°C Reel
CLC2008ISO8X SOIC-8 Yes Yes -40°C to +85°C Reel
Moisture sensitivity level for all parts is MSL-1.
Magnitude (1dB/div)
Frequency (MHz)
0.1 110 100
Vo = 1Vpp
Vo = 2Vpp
Vo = 4Vpp
Magnitude (1dB/div)
Frequency (MHz)
0.01 1100
100.1
Frequency Response vs. VOUT Frequency Response vs. Temperature
Data Sheet
Comlinear CLC1008, CLC2008 0.5mA, Low Cost, 75MHz Rail-to-Rail Ampliers Rev 2C
©2009-2013 Exar Corporation 2/16 Rev 2C
CLC1008 Pin Assignments
Pin No. Pin Name Description
1 OUT Output
2-VSNegative supply
3 +IN Positive input
4-IN Negative input
5+VSPositive supply
CLC2008 Pin Conguration
Pin No. Pin Name Description
1 OUT1 Output, channel 1
2-IN1 Negative input, channel 1
3 +IN1 Positive input, channel 1
4-VSNegative supply
5+IN2 Positive input, channel 2
6 -IN2 Negative input, channel 2
7 OUT2 Output, channel 2
8 +VSPositive supply
CLC1008 Pin Conguration
2
3
5
4
+IN
+V
S
-IN
1
-V
S
OUT
-
+
CLC2008 Pin Conguration
2
3
45
6
7
8
OUT2
+IN1 -IN2
+IN2
1
-IN1
OUT1
-V
S
+V
S
Data Sheet
Comlinear CLC1008, CLC2008 0.5mA, Low Cost, 75MHz Rail-to-Rail Ampliers Rev 2C
©2009-2013 Exar Corporation 3/16 Rev 2C
Absolute Maximum Ratings
The safety of the device is not guaranteed when it is operated above the Absolute Maximum Ratings”. The device
should not be operated at these “absolute” limits. Adhere to the “Recommended Operating Conditions” for proper de-
vice function. The information contained in the Electrical Characteristics tables and Typical Performance plots reect the
operating conditions noted on the tables and plots.
Parameter Min Max Unit
Supply Voltage 06 V
Input Voltage Range -Vs -0.5V +Vs +0.5V V
Continuous Output Current -30 30 mA
Reliability Information
Parameter Min Typ Max Unit
Junction Temperature 175 °C
Storage Temperature Range -65 150 °C
Lead Temperature (Soldering, 10s) 260 °C
Package Thermal Resistance
5-Lead SOT23 221 °C/W
8-Lead SOIC 100 °C/W
Notes:
Package thermal resistance (qJA), JDEC standard, multi-layer test boards, still air.
Recommended Operating Conditions
Parameter Min Typ Max Unit
Operating Temperature Range -40 +85 °C
Supply Voltage Range 2.5 5.5 V
Data Sheet
Comlinear CLC1008, CLC2008 0.5mA, Low Cost, 75MHz Rail-to-Rail Ampliers Rev 2C
©2009-2013 Exar Corporation 4/16 Rev 2C
Electrical Characteristics at +2.7V
TA = 25°C, Vs = +2.7V, Rf = Rg =1kΩ, RL = 1kΩ to VS/2, G = 2; unless otherwise noted.
Symbol Parameter Conditions Min Typ Max Units
Frequency Domain Response
UGBWSS Unity Gain -3dB Bandwidth G = +1, VOUT = 0.05Vpp , Rf = 0 65 MHz
BWSS -3dB Bandwidth G = +2, VOUT < 0.2Vpp 30 MHz
BWLS Large Signal Bandwidth G = +2, VOUT = 2Vpp 12 MHz
GBWP Gain Bandwidth Product G = +11, VOUT = 0.2Vpp 28 MHz
Time Domain Response
tR, tFRise and Fall Time VOUT = 0.2V step; (10% to 90%) 7.5 ns
tSSettling Time to 0.1% VOUT = 1V step 60 ns
OS Overshoot VOUT = 1V step 10 %
SR Slew Rate 2V step, G = -1 40 V/µs
Distortion/Noise Response
HD2 2nd Harmonic Distortion VOUT = 1Vpp, 1MHz -67 dBc
HD3 3rd Harmonic Distortion VOUT = 1Vpp, 1MHz -72 dBc
THD Total Harmonic Distortion VOUT = 1Vpp, 1MHz 65 dB
enInput Voltage Noise > 10kHz 12 nV/√Hz
DC Performance
VIO Input Offset Voltage 0mV
dVIO Average Drift 10 µV/°C
IbInput Bias Current 1.2 μA
dIb Average Drift 3.5 nA/°C
IOS Input Offset Current 30 nA
PSRR Power Supply Rejection Ratio (1) DC 60 66 dB
AOL Open-Loop Gain VOUT = VS / 2 98 dB
ISSupply Current per channel 470 μA
Input Characteristics
RIN Input Resistance Non-inverting 9
CIN Input Capacitance 1.5 pF
CMIR Common Mode Input Range -0.3 to
1.5 V
CMRR Common Mode Rejection Ratio DC, VCM = 0V to VS - 1.5 74 dB
Output Characteristics
VOUT Output Voltage Swing
RL = 1kΩ to VS / 2 0.09 to
2.53 V
RL = 10kΩ to VS / 2 0.05 to
2.6 V
IOUT Output Current ±15 mA
ISC Short Circuit Output Current ±30 mA
Notes:
1. 100% tested at 25°C
Data Sheet
Comlinear CLC1008, CLC2008 0.5mA, Low Cost, 75MHz Rail-to-Rail Ampliers Rev 2C
©2009-2013 Exar Corporation 5/16 Rev 2C
Electrical Characteristics at +5V
TA = 25°C, Vs = +5V, Rf = Rg =1kΩ, RL = 1kΩ to VS/2, G = 2; unless otherwise noted.
Symbol Parameter Conditions Min Typ Max Units
Frequency Domain Response
UGBWSS Unity Gain -3dB Bandwidth G = +1, VOUT = 0.05Vpp , Rf = 0 75 MHz
BWSS -3dB Bandwidth G = +2, VOUT < 0.2Vpp 35 MHz
BWLS Large Signal Bandwidth G = +2, VOUT = 2Vpp 15 MHz
GBWP Gain Bandwidth Product G = +11, VOUT = 0.2Vpp 33 MHz
Time Domain Response
tR, tFRise and Fall Time VOUT = 0.2V step; (10% to 90%) 6 ns
tSSettling Time to 0.1% VOUT = 1V step 60 ns
OS Overshoot VOUT = 1V step 12 %
SR Slew Rate 2V step, G = -1 50 V/µs
Distortion/Noise Response
HD2 2nd Harmonic Distortion VOUT = 2Vpp, 1MHz -64 dBc
HD3 3rd Harmonic Distortion VOUT = 2Vpp, 1MHz -62 dBc
THD Total Harmonic Distortion VOUT = 2Vpp, 1MHz 60 dB
enInput Voltage Noise > 10kHz 12 nV/√Hz
DC Performance
VIO Input Offset Voltage (1) -5 -1 5mV
dVIO Average Drift 10 µV/°C
IbInput Bias Current (1) -3.5 1.2 3.5 μA
dIb Average Drift 3.5 nA/°C
IOS Input Offset Current (1) 30 350 nA
PSRR Power Supply Rejection Ratio (1) DC 60 66 dB
AOL Open-Loop Gain (1) VOUT = VS / 2 65 80 dB
ISSupply Current (1) per channel 505 620 μA
Input Characteristics
RIN Input Resistance Non-inverting 9
CIN Input Capacitance 1.5 pF
CMIR Common Mode Input Range -0.3 to
3.8 V
CMRR Common Mode Rejection Ratio (1) DC, VCM = 0V to VS - 1.5 65 74 dB
Output Characteristics
VOUT Output Voltage Swing
RL = 1kΩ to VS / 2 (1) 0.2 to
4.65
0.13 to
4.73 V
RL = 10kΩ to VS / 2 0.08 to
4.84 V
IOUT Output Current ±15 mA
ISC Short Circuit Output Current ±30 mA
Notes:
1. 100% tested at 25°C
Data Sheet
Comlinear CLC1008, CLC2008 0.5mA, Low Cost, 75MHz Rail-to-Rail Ampliers Rev 2C
©2009-2013 Exar Corporation 6/16 Rev 2C
Typical Performance Characteristics
TA = 25°C, Vs = +5V, Rf = Rg =1kΩ, RL = 1kΩ to VS/2, G = 2; unless otherwise noted.
Frequency Response vs. CLFrequency Response vs. RL
Non-Inverting Frequency Response Inverting Frequency Response
Non-Inverting Frequency Response at VS = 5V Inverting Frequency Response at VS = 5V
Normalized Magnitude (1dB/div)
Frequency (MHz)
0.1 1
G = 10
Rf = 1kΩ
10 100
G = 5
Rf = 1kΩ
G = 1
Rf = 0
G = 2
Rf = 1kΩ
Normalized Magnitude (1dB/div)
Frequency (MHz)
0.1 1
G = -10
Rf = 1kΩ
10 100
G = -5
Rf = 1kΩ
G = -2
Rf = 1kΩ
G = -1
Rf = 1kΩ
Normalized Magnitude (2dB/div)
Frequency (MHz)
0.1 1
G = 10
Rf = 2kΩ
10 100
G = 5
Rf = 1kΩ
G = 1
Rf = 0
G = 2
Rf = 1kΩ
Normalized Magnitude (1dB/div)
Frequency (MHz)
0.1 1
G = -10
Rf = 1kΩ
10 100
G = -5
Rf = 1kΩ
G = -1
Rf = 1kΩ
G = -2
Rf = 1kΩ
Magnitude (1dB/div)
Frequency (MHz)
0.1 110 100
CL = 100pF
Rs = 100Ω
CL = 50pF
Rs = 100Ω
CL = 10pF
Rs = 0Ω
CL = 20pF
Rs = 100Ω
+
-1kΩ
1kΩ
Rs
CLRL
Magnitude (1dB/div)
Frequency (MHz)
0.1 110 100
RL = 1kΩ
RL = 10kΩ
RL = 100Ω
Data Sheet
Comlinear CLC1008, CLC2008 0.5mA, Low Cost, 75MHz Rail-to-Rail Ampliers Rev 2C
©2009-2013 Exar Corporation 7/16 Rev 2C
Typical Performance Characteristics
TA = 25°C, Vs = +5V, Rf = Rg =1kΩ, RL = 1kΩ to VS/2, G = 2; unless otherwise noted.
2nd & 3rd Harmonic Distortion Frequency Response vs. Temperature
2nd Harmonic Distortion vs. VOUT 3rd Harmonic Distortion vs. VOUT
Frequency Response vs. VOUT Open Loop Gain & Phase vs. Frequency
Magnitude (1dB/div)
Frequency (MHz)
0.1 110 100
Vo = 1Vpp
Vo = 2Vpp
Vo = 4Vpp
Open Loop Gain (dB)
Frequency (Hz)
-10
0
10
20
30
-180
-135
-90
-45
0
40
50
60
70
80
90
1k100 10k 100k 1M 10M 100M
Open Loop Phase (deg)
Gain
Phase
Distortion (dBc)
Output Amplitude (Vpp)
0.5 11.5 2
1MHz
500kHz
100kHz
2.5
-90
-80
-70
-60
-50
-40
-30
-20
Distortion (dB)
Output Amplitude (Vpp)
0.5 1.0 1.5 2.0
1MHz
500kHz
100kHz
2.5
-90
-80
-70
-60
-50
-40
-30
-20
Distortion (dBc)
Frequency (MHz)
0123 4
3rd
RL = 1kΩ
5
3rd
RL = 150Ω
2nd
RL = 150Ω
2nd
RL = 1kΩ
-90
-80
-70
-60
-50
-40
-30
-20 Vo = 1Vpp
Magnitude (1dB/div)
Frequency (MHz)
0.01 1100
100.1
Data Sheet
Comlinear CLC1008, CLC2008 0.5mA, Low Cost, 75MHz Rail-to-Rail Ampliers Rev 2C
©2009-2013 Exar Corporation 8/16 Rev 2C
Typical Performance Characteristics - Continued
TA = 25°C, Vs = +5V, Rf = Rg =1kΩ, RL = 1kΩ to VS/2, G = 2; unless otherwise noted.
Output Swing Output Voltage vs. Output Current
CMRR PSRR
CMRR (dB)
Frequency (Hz)
100 1k 10k 10M1M100k 100M
-100
-90
-80
-70
-60
0
-50
-40
-10
-30
-20
PSRR (dB)
Frequency (Hz)
100 1k 10k 10M1M100k 100M
-80
-70
-60
-50
-40
0
-30
-20
-10
Output Voltage (0.5V/div)
Time (1μs/div)
0
2.7
Output Voltage (0.6V/div)
Output Current (10mA/div)
50 0-50
-3
0
3
Output Voltage (20mV/div)
Time (10ns/div)
Output Voltage (20mV/div)
Time (10ns/div)
Small Signal Pulse Response Small Signal Pulse Response at VS = 5V
Data Sheet
Comlinear CLC1008, CLC2008 0.5mA, Low Cost, 75MHz Rail-to-Rail Ampliers Rev 2C
©2009-2013 Exar Corporation 9/16 Rev 2C
Typical Performance Characteristics - Continued
TA = 25°C, Vs = +5V, Rf = Rg =1kΩ, RL = 1kΩ to VS/2, G = 2; unless otherwise noted.
Large Signal Pulse Response at VS = 5V Input Voltage Noise
Output Voltage (0.5V/div)
Time (10ns/div)
Voltage Noise (nV/Hz)
Frequency (MHz)
0.0001 0.001 0.01 0.1 1 10
0
10
30
20
40
50
60
70
Data Sheet
Comlinear CLC1008, CLC2008 0.5mA, Low Cost, 75MHz Rail-to-Rail Ampliers Rev 2C
©2009-2013 Exar Corporation 10/16 Rev 2C
Application Information
General Description
The CLC1008 family are a single supply, general purpose,
voltage-feedback ampliers fabricated on a complementary
bipolar process. The CLC1008 offers 75MHz unity gain
bandwidth, 50V/μs slew rate, and only 505μA supply current.
It features a rail-to-rail output stage and is unity gain stable.
Figures 1, 2, and 3 illustrate typical circuit congurations for
non-inverting, inverting, and unity gain topologies for dual
supply applications. They show the recommended bypass
capacitor values and overall closed loop gain equations.
Figure 4 shows the typical non-inverting gain circuit for
single supply applicaitons.
The common mode input range extends to 300mV below
ground in single supply operation. Exceeding these values
will not cause phase reversal. However, if the input voltage
exceeds the rails by more than 0.5V, the input ESD devices
will begin to conduct.
The design uses a Darlington output stage. The output
stage is short circuit protected and offers “soft” saturation
protection that improves recovery time.
+
-
Rf
0.1μF
6.8μF
Output
G = 1 + (Rf/Rg)
Input
+Vs
-Vs
Rg
0.1μF
6.8μF
RL
Figure 1. Typical Non-Inverting Gain Circuit
+
-
Rf
0.1μF
6.8μF
Output
G = - (Rf/Rg)
For optimum input offset
voltage set R1 = Rf || Rg
Input
+Vs
-Vs
0.1μF
6.8μF
RL
Rg
R1
Figure 2. Typical Inverting Gain Circuit
+
-
0.1uF
6.8uF
Output
G = 1
Input
+Vs
-Vs
0.1uF
6.8uF
RL
Figure 3. Unity Gain Circuit
+
-Rf
0.1μF
6.8μF
Out
In
+Vs
+
Rg
Figure 4. Single Supply Non-Inverting Gain Circuit
For optimum response at a gain of +2, a feedback resistor
of 1kΩ is recommended. Figure 5 illustrates the CLC1008
frequency response with both 1kΩ and 2kΩ feedback
resistors.
Magnitude (1dB/div)
Frequency (MHz)
0.1 1 10 100
G = 2
RL = 1kΩ
Rf = 1kΩ
Rf = 2kΩ
Figure 5. Frequency Response vs. Rf
Data Sheet
Comlinear CLC1008, CLC2008 0.5mA, Low Cost, 75MHz Rail-to-Rail Ampliers Rev 2C
©2009-2013 Exar Corporation 11/16 Rev 2C
Power Dissipation
Power dissipation should not be a factor when operating
under the stated 1k ohm load condition. However,
applications with low impedance, DC coupled loads
should be analyzed to ensure that maximum allowed
junction temperature is not exceeded. Guidelines listed
below can be used to verify that the particular application
will not cause the device to operate beyond it’s intended
operating range.
Maximum power levels are set by the absolute maximum
junction rating of 150°C. To calculate the junction
temperature, the package thermal resistance value
ThetaJA JA) is used along with the total die power
dissipation.
TJunction = TAmbient + (ӨJA × PD)
Where TAmbient is the temperature of the working environment.
In order to determine PD, the power dissipated in the load
needs to be subtracted from the total power delivered by
the supplies.
PD = Psupply - Pload
Supply power is calculated by the standard power
equation.
Psupply = Vsupply × IRMS supply
Vsupply = VS+ - VS-
Power delivered to a purely resistive load is:
Pload = ((VLOAD)RMS2)/Rloadeff
The effective load resistor (Rloadeff) will need to include
the effect of the feedback network. For instance,
Rloadeff in Figure 3 would be calculated as:
RL || (Rf + Rg)
These measurements are basic and are relatively easy to
perform with standard lab equipment. For design purposes
however, prior knowledge of actual signal levels and load
impedance is needed to determine the dissipated power.
Here, PD can be found from
PD = PQuiescent + PDynamic - PLoad
Quiescent power can be derived from the specied IS
values along with known supply voltage, VSupply. Load
power can be calculated as above with the desired signal
amplitudes using:
(VLOAD)RMS = VPEAK / √2
( ILOAD)RMS = ( VLOAD)RMS / Rloadeff
The dynamic power is focused primarily within the output
stage driving the load. This value can be calculated as:
PDYNAMIC = (VS+ - VLOAD)RMS × ( ILOAD)RMS
Assuming the load is referenced in the middle of the
power rails or Vsupply/2.
The CLC1008 is short circuit protected. However, this may
not guarantee that the maximum junction temperature
(+150°C) is not exceeded under all conditions. Figure 6
shows the maximum safe power dissipation in the package
vs. the ambient temperature for the packages available.
0
0.5
1
1.5
2
-40 -20 020 40 60 80
Maximum Power Dissipation (W)
Ambient Temperature (°C)
SOT23-5
SOIC-8
MSOP-8
SOT23-6
Figure 6. Maximum Power Derating
Driving Capacitive Loads
Increased phase delay at the output due to capacitive
loading can cause ringing, peaking in the frequency
response, and possible unstable behavior. Use a series
resistance, RS, between the amplier and the load to
help improve stability and settling performance. Refer to
Figure 7.
+
-
Rf
Input
Output
Rg
Rs
CLRL
Figure 7. Addition of RS for Driving Capacitive Loads
Table 1 provides the recommended RS for various
capacitive loads. The recommended RS values result in
Data Sheet
Comlinear CLC1008, CLC2008 0.5mA, Low Cost, 75MHz Rail-to-Rail Ampliers Rev 2C
©2009-2013 Exar Corporation 12/16 Rev 2C
approximately <1dB peaking in the frequency response.
The Frequency Response vs. CL plot, on page 4, illustrates
the response of the CLCx008.
CL (pF) RS (Ω) -3dB BW (kHz)
10pF 0 22
20pF 100 19
50pF 100 12
100pF 100 10.2
Table 1: Recommended RS vs. CL
For a given load capacitance, adjust RS to optimize the
tradeoff between settling time and bandwidth. In general,
reducing RS will increase bandwidth at the expense of
additional overshoot and ringing.
Overdrive Recovery
An overdrive condition is dened as the point when either
one of the inputs or the output exceed their specied
voltage range. Overdrive recovery is the time needed for
the amplier to return to its normal or linear operating
point. The recovery time varies, based on whether the
input or output is overdriven and by how much the range is
exceeded. The CLC1008 and CLC2008 will typically recover
in less than 20ns from an overdrive condition. Figure 8
shows the CLC1008 in an overdriven condition.
Output Voltage (1V/div)
Input Voltage (0.5V/div)
Time (200ns/div)
G = 5 Output
Input
Figure 8. Overdrive Recovery
Layout Considerations
General layout and supply bypassing play major roles in
high frequency performance. CADEKA has evaluation
boards to use as a guide for high frequency layout and as
an aid in device testing and characterization. Follow the
steps below as a basis for high frequency layout:
Include 6.8µF and 0.1µF ceramic capacitors for power
supply decoupling
Place the 6.8µF capacitor within 0.75 inches of the power pin
Place the 0.1µF capacitor within 0.1 inches of the power pin
Remove the ground plane under and around the part,
especially near the input and output pins to reduce
parasitic capacitance
Minimize all trace lengths to reduce series inductances
Refer to the evaluation board layouts below for more
information.
Evaluation Board Information
The following evaluation boards are available to aid in the
testing and layout of these devices:
Evaluation Board # Products
CEB002 CLC1008 in SOT23
CEB003 CLC1008 in SOIC
CEB006 CLC2008 in SOIC
CEB010 CLC2008 in MSOP
Evaluation Board Schematics
Evaluation board schematics and layouts are shown in
Figures 8-14. These evaluation boards are built for dual-
supply operation. Follow these steps to use the board in a
single-supply application:
1. Short -Vs to ground.
2. Use C3 and C4, if the -VS pin of the amplier is not
directly connected to the ground plane.
Data Sheet
Comlinear CLC1008, CLC2008 0.5mA, Low Cost, 75MHz Rail-to-Rail Ampliers Rev 2C
©2009-2013 Exar Corporation 13/16 Rev 2C
Figure 8. CEB002 & CEB003 Schematic
Figure 9. CEB002 Top View
Figure 10. CEB002 Bottom View
Figure 11. CEB003 Top View
Figure 12. CEB003 Bottom View
Data Sheet
Comlinear CLC1008, CLC2008 0.5mA, Low Cost, 75MHz Rail-to-Rail Ampliers Rev 2C
©2009-2013 Exar Corporation 14/16 Rev 2C
Figure 11. CEB006 & CEB010 Schematic
Figure 12. CEB006 Top View
Figure 13. CEB006 Bottom View
Figure 15. CEB010 Top View
Figure 16. CEB010 Bottom View
Data Sheet
Comlinear CLC1008, CLC2008 0.5mA, Low Cost, 75MHz Rail-to-Rail Ampliers Rev 2C
©2009-2013 Exar Corporation 15/16 Rev 2C
Mechanical Dimensions
SOT23-5 Package
SOIC-8
Data Sheet
Comlinear CLC1008, CLC2008 0.5mA, Low Cost, 75MHz Rail-to-Rail Ampliers Rev 2C
For Further Assistance:
Exar Corporation Headquarters and Sales Ofces
48720 Kato Road Tel.: +1 (510) 668-7000
Fremont, CA 94538 - USA Fax: +1 (510) 668-7001
www.exar.com
NOTICE
EXAR Corporation reserves the right to make changes to the products contained in this publication in order to improve design, performance or reliability. EXAR Corporation assumes no responsibility for the use of any
circuits described herein, conveys no license under any patent or other right, and makes no representation that the circuits are free of patent infringement. Charts and schedules contained here in are only for illustration
purposes and may vary depending upon a user’s specic application. While the information in this publication has been carefully checked; no responsibility, however, is assumed for inaccuracies.
EXAR Corporation does not recommend the use of any of its products in life support applications where the failure or malfunction of the product can reasonably be expected to cause failure of the life support system or
to signicantly affect its safety or effectiveness. Products are not authorized for use in such applications unless EXAR Corporation receives, in writing, assurances to its satisfaction that: (a) the risk of injury or damage
has been minimized; (b) the user assumes all such risks; (c) potential liability of EXAR Corporation is adequately protected under the circumstances.
Reproduction, in part or whole, without the prior written consent of EXAR Corporation is prohibited.
©2009-2013 Exar Corporation 16/16 Rev 2C
Mouser Electronics
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