CADEKA CLC3801ISO8X

Data Sheet
A m p l i fy t h e H u m a n E x p e r i e n c e
Comlinear CLC3800, CLC3801, CLC3802
®
Triple, Standard Definition Video Amplifiers
The CLC3800 (6dB), CLC3801 (9dB), and CLC3802 (12dB) are triple low cost
video amplifiers capable of driving 2Vpp into 1 (150Ω) or 2 (75Ω) video loads.
The CLC3800, CLC3801, and CLC3802 feature integrated 8MHz, 4th-order
low pass filters designed to cleanly pass standard definition video signals
while filtering out noise and other unwanted signals , resulting in a crisper,
cleaner video signal. The 4th-order filters provide improved image quality
when compared to 2nd-order passive filtering solutions.
The CLC3800 video amplifier offers a fixed gain of 6dB. This integrated
gain compensates for the voltage drop inherent in properly terminated video
loads; ensuring a 1Vpp video signal is present at the load. If additional gain
is required, the CLC3801 video amplifier offers a fixed gain of 9dB and the
CLC3802 offers 12dB.
All three video amplifiers can be driven by DC-coupled signals. Thier outputs
can drive either AC- or DC-coupled loads.
Applications
n Cable or satellite set-top-box (STB)
n Portable DVD players
n DVD players
n Portable media players with video out
n Video on demand
n Personal video recorders
These video amplifiers operate from 3V to 7V supplies and consume 8.8mA of
supply current, making them well suited for battery powered devices.
Functional Block Diagram
IN1
Gain
OUT1
IN2
Gain
OUT2
IN3
Gain
OUT3
8MHz, 4th Order
Low Pass Filter
Ordering Information
CLC3800 - 6dB
CLC3801 - 9dB
CLC3802 - 12dB
Gain
Package
Pb-Free
RoHS Compliant
Operating Temperature Range
Packaging Method
CLC3800ISO8X
6dB
SOIC-8
Yes
Yes
-40°C to +125°C
Reel
CLC3801ISO8X
9dB
SOIC-8
Yes
Yes
-40°C to +125°C
Reel
CLC3802ISO8X✝
12dB
SOIC-8
Yes
Yes
-40°C to +125°C
Reel
CLC3800ILP8X*
6dB
DFN-8
Yes
Yes
-40°C to +125°C
Reel
CLC3801ILP8X*
9dB
DFN-8
Yes
Yes
-40°C to +125°C
Reel
CLC3802ILP8X*
12dB
DFN-8
Yes
Yes
-40°C to +125°C
Reel
Rev 1A
Part Number
✝Preliminary, contact CADEKA for availablility. *Future product offering.
Moisture sensitivity level for all parts is MSL-1.
©2008 CADEKA Microcircuits LLC Comlinear CLC3800, CLC3801, CLC3802 Triple, Standard Definition Video Amplifiers
General Description
features
n Integrated 4th-order, 8MHz filters
n Integrated 6, 9, or 12dB video drivers
n 8.8mA total supply current
n 0.05%/0.02˚ differential gain/phase
error
n DC coupled inputs
n AC or DC coupled outputs
n DC-coupled outputs remove the need
for AC-coupling capacitors
n Each channel can drive 2Vpp into 1 or 2
video loads (150Ω or 75Ω)
n 0.1% THD
n Operates from 3V to 7V supplies
n Pb-free SOIC-8 or DFN-8 packages
www.cadeka.com
Data Sheet
SOIC Pin Assignments
SOIC Pin Configuration
1
8
OUT1
IN2
2
7
OUT2
IN3
3
6
OUT3
+VS
4
5
GND
Pin Name
1
IN1
Description
Input, channel 1
2
IN2
Input, channel 2
3
IN3
Input, channel 3
4
+VS
Positive supply
5
GND
Ground
6
OUT3
Output, channel3
7
OUT2
Output, channel 2
8
OUT1
Output, channel 1
DFN Pin Configuration
DFN Pin Configuration
Pin No.
Pin Name
Description
1
IN1
Input, channel 1
2
IN2
Input, channel 2
OUT1
8
1
IN1
OUT2
7
2
IN2
3
IN3
Input, channel 3
4
Positive supply
OUT3
6
3
IN3
+VS
5
GND
Ground
6
OUT3
Output, channel3
7
OUT2
Output, channel 2
8
OUT1
Output, channel 1
GND
4
5
Comlinear CLC3800, CLC3801, CLC3802 Triple, Standard Definition Video Amplifiers
IN1
Pin No.
+VS
Bottom View
Rev 1A
©2007-2008 CADEKA Microcircuits LLC www.cadeka.com
2
Data Sheet
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 device function. The information contained in the Electrical Characteristics tables and Typical Performance plots reflect the operating
conditions noted on the tables and plots.
Supply Voltage
Input Voltage Range
Output Short Circuit Current
Min
Max
Unit
0
-Vs -0.5V
14
+Vs +0.5V
+110, -85
V
V
mA
Comlinear CLC3800, CLC3801, CLC3802 Triple, Standard Definition Video Amplifiers
Parameter
Reliability Information
Parameter
Junction Temperature
Storage Temperature Range
Lead Temperature (Soldering, 10s)
Package Thermal Resistance
8-Lead SOIC
8-Lead DFN
Min
Typ
-65
Max
Unit
150
150
260
°C
°C
°C
100
60
°C/W
°C/W
Notes:
Package thermal resistance (qJA), JDEC standard, multi-layer test boards, still air.
ESD Protection
Product
Human Body Model (HBM), output ESD protection
Charged Device Model (CDM)
SOIC-8
DFN-8
5kV
2kV
TBD
TBD
Recommended Operating Conditions
Parameter
Min
Operating Temperature Range
Supply Voltage Range
-40
3
Typ
Max
Unit
+125
7
°C
V
Rev 1A
©2007-2008 CADEKA Microcircuits LLC www.cadeka.com
3
Data Sheet
Electrical Characteristics
TA = 25°C, Vs = +3V, input is DC-coupled, input source resistance = 37.5Ω, RL = 150Ω thru a 220μF AC-coupling capacitor, VIN = 1Vpp; unless otherwise noted.
Symbol
Parameter
Conditions
Min
Typ
Max
Units
Frequency Domain Response
RL=150Ω, AC-coupled
-1dB Bandwidth
F-3dB
-3dB Bandwidth
FSB
Stopband Attenuation
DG
DP
Differential Gain
Differential Phase
7.6
MHz
RL=75Ω, DC-coupled
7.6
MHz
RL=150Ω, AC-coupled
8.5
MHz
RL=75Ω, DC-coupled
8.5
MHz
at 27MHz, RL=150Ω, AC-coupled
48
dB
at 27MHz, RL=75Ω, DC-coupled
48
dB
NTSC (3.58MHz), AC-coupled
0.13
%
NTSC (3.58MHz), DC-coupled
0.05
%
NTSC (3.58MHz), DC-coupled, RL=75Ω
0.34
%
NTSC (3.58MHz), AC-coupled
0.05
°
NTSC (3.58MHz), DC-coupled
0.02
°
NTSC (3.58MHz), DC-coupled, RL=75Ω
0.2
°
Time Domain Response
GD
Group Delay
Delta delay between 400kHz and 3.58MHz
5.6
ns
PD
Propogation Delay
Delay from input to output, 4.5MHz
65
ns
VOUT = 2Vpp, 1MHz, active video range + sync
0.1
%
VOUT = 1.4Vpp, 3.58MHz, active video range
0.9
%
VOUT = 2Vpp, 1MHz, active video range +
sync, RL=75Ω, DC-coupled
0.1
%
VOUT= 1.4Vpp, 3.58MHz, active video range,
RL=75Ω, DC-coupled
0.9
%
NTC-7 Weighting 10kHz to 4.2MHz
68
dB
400kHz to 3.58MHz (NTSC)
±1
%
400kHz to 4.43MHz (PAL)
±1
%
Channel-to-channel at 1MHz
60
dB
Channel-to-channel at 1MHz, RL=75Ω, DC-coupled
58
dB
Distortion/Noise Response
THD
SNR
Total Harmonic Distortion
Signal to Noise Ratio
CLG
Chroma / Luma Gain
XTALK
Crosstalk
DC Performance
G
Gain(1)
Matching(1)
DC, CLC3800, RL=75Ω, DC-coupled
5.7
6.0
6.3
dB
DC, CLC3801, RL=75Ω, DC-coupled
8.6
9.0
9.4
dB
DC, CLC3802, RL=75Ω, DC-coupled
TBD
12
TBD
dB
GMATCH
Inter-Channel Gain
VOS
Output Offset Voltage(1)
VIN=0V, no load
Ib
Input Bias Current(1)
VIN=0V, no load
VIN
Input Voltage Range(1)
Output Voltage, CLC3800(2)
VO
Output Voltage, CLC3801(2)
230
0.08
0.2
dB
330
390
mV
1.4
5
µA
CLC3800
0 to 1.25
V
CLC3801
0 to 0.9
V
2.5
V
VIN=1.1Vpp, RL=150Ω, AC-coupled
VIN=1.1Vpp, RL=75Ω,
DC-coupled(1)
2.35
VIN=1.1Vpp, RL=150Ω, AC-coupled
VIN=1.1Vpp, RL=75Ω,
DC-coupled(1)
PSRR
Power Supply Rejection Ratio
DC , no load, VS = 3V to 5.5V
IS
Supply Current(1)
No load, all 3 channels
2.66
V
2.5
2.32
VIN=1.1Vpp, RL=150Ω, AC-coupled
VIN=1.1Vpp, RL=75Ω, DC-coupled(1)
2.5
2.5
V
2.69
V
TBD
TBD
TBD
V
TBD
V
15
mA
52
8.8
Rev 1A
Output Voltage, CLC3802(2)
400kHz, RL=75Ω, DC-coupled
dB
Notes:
1. 100% tested at 25°C
2. Designed to handle SD video from -40°C to +125°
©2007-2008 CADEKA Microcircuits LLC www.cadeka.com
Comlinear CLC3800, CLC3801, CLC3802 Triple, Standard Definition Video Amplifiers
F-1dB
4
Data Sheet
Electrical Characteristics
TA = 25°C, Vs = +5V, input is DC-coupled, input source resistance = 37.5Ω, RL = 150Ω thru a 220μF AC-coupling capacitor, VIN = 1Vpp; unless otherwise noted.
Symbol
Parameter
Conditions
Min
Typ
Max
Units
Frequency Domain Response
RL=150Ω, AC-coupled
-1dB Bandwidth
F-3dB
-3dB Bandwidth
FSB
Stopband Attenuation
7.7
MHz
RL=75Ω, DC-coupled
7.7
MHz
RL=150Ω, AC-coupled
8.6
MHz
RL=75Ω, DC-coupled
8.6
MHz
at 27MHz, RL=150Ω, AC-coupled
48
dB
at 27MHz, RL=75Ω, DC-coupled
48
dB
0.17
%
NTSC (3.58MHz), DC-coupled
0.1
%
NTSC (3.58MHz), DC-coupled, RL=75Ω
0.34
%
NTSC (3.58MHz), AC-coupled
0.02
°
NTSC (3.58MHz), DC-coupled
0.02
°
NTSC (3.58MHz), DC-coupled, RL=75Ω
0.2
°
NTSC (3.58MHz), AC-coupled
DG
DP
Differential Gain
Differential Phase
Time Domain Response
GD
Group Delay
Delta delay between 400kHz and 3.58MHz
5.6
ns
PD
Propogation Delay
Delay from input to output, 4.5MHz
65
ns
VOUT= 2Vpp, 1MHz, active video range + sync
0.1
%
VOUT= 1.4Vpp, 3.58MHz, active video range
0.5
%
VOUT= 2Vpp, 1MHz, active video range + sync,
RL=75Ω, DC-coupled
0.15
%
VOUT= 1.4Vpp, 3.58MHz, active video range,
RL=75Ω, DC-coupled
0.6
%
NTC-7 Weighting 10kHz to 4.2MHz
73
dB
400kHz to 3.58MHz (NTSC)
±1
%
400kHz to 4.43MHz (PAL)
±1
%
Channel-to-channel at 1MHz
-61
dB
Channel-to-channel at 1MHz, RL=75Ω, DC-coupled
-58
dB
Distortion/Noise Response
THD
SNR
Total Harmonic Distortion
Signal to Noise Ratio
CLG
Chroma / Luma Gain
XTALK
Crosstalk
DC Performance
G
Gain(1)
Matching(1)
DC, CLC3800, RL=75Ω, DC-coupled
5.7
6.0
6.3
dB
DC, CLC3801, RL=75Ω, DC-coupled
8.6
9.0
9.4
dB
DC, CLC3802, RL=75Ω, DC-coupled
TBD
12
TBD
dB
GMATCH
Inter-Channel Gain
VOS
Output Offset Voltage(1)
VIN=0V, no load
Ib
Input Bias Current(1)
VIN=0V, no load
VRIN
Video Range - Input(1)
Output Voltage, CLC3800(2)
VO
Output Voltage, CLC3801(2)
230
0.08
0.2
dB
330
390
mV
1.4
5
µA
CLC3800
0 to 1.1
0 to 1.4
V
CLC3801
0 to 0.78
0 to 1
V
2.5
V
VIN=1.1Vpp, RL=150Ω, AC-coupled
VIN=1.1Vpp, RL=75Ω,
DC-coupled(1)
2.35
VIN=1.1Vpp, RL=150Ω, AC-coupled
VIN=1.1Vpp, RL=75Ω, DC-coupled(1)
PSRR
Power Supply Rejection Ratio
DC, no load
IS
Supply Current(1)
Total
2.66
V
2.5
2.32
VIN=1.1Vpp, RL=150Ω, AC-coupled
VIN=1.1Vpp, RL=75Ω, DC-coupled(1)
2.5
2.5
V
2.69
V
TBD
TBD
TBD
V
TBD
V
53
9.5
Rev 1A
Output Voltage, CLC3802(2)
400kHz, RL=75Ω, DC-coupled
dB
15
mA
Notes:
1. 100% tested at 25°C
2. Designed to handle SD video from -40° to +125°
©2007-2008 CADEKA Microcircuits LLC www.cadeka.com
Comlinear CLC3800, CLC3801, CLC3802 Triple, Standard Definition Video Amplifiers
F-1dB
5
Data Sheet
Application Information
Basic Operation
2.39V
Output Signal
1.02V
Input Signal
Inputs: DC-Coupled
The inputs must be DC-coupled. Many DACs provide a
current output that is resistively terminated to ground.
These DACs are conveniently DC-coupled to the inputs of
the CLC3800, CLC3801, or CLC3802 as shown in Figure 1.
DC-coupled inputs use fewer components and lowers the
overall system cost.
DAC Load Resistors
per Video DAC/Encoder specs
1
R or Y
Video
DAC/
Encoder
0.97V
2
G or PB
IN1
OUT1
IN2
OUT2
8
7
CLC3800
3
B or PR
IN3
OUT3
+Vs
GND
6
+3V or +5V
4
1.0µF
5
0.1µF
Figure 1. Typical Input Configuration
0.02V
0.00V
Figure 2. Typical DC-coupled Signal for CLC3800
The input voltage range is typically 0V to 1.4V for the
CLC3800 at 5V supply. Due to the internal fixed gain of 6dB
(for the CLC3800) and the internal level shift of nominally
330mV, the VIN range is generally limited by the output.
VIN and VOUT are fully detailed in the Electrical Characteristics section.
Outputs: AC- or DC-Coupled
Each channel of the CLC3800, CLC3801, and CLC3802 can
drive either AC- or DC-coupled loads. Each channel can
drive single or dual video loads, 150Ω (1 video load) or
75Ω (2 video loads). Figure 3 shows the typical configuration for driving either AC- or DC-coupled loads.
With DC-coupled loads, AC-coupling capacitors are not
used. Match the series termination resistors to the typical cable impedance, 75Ω for standard video cable. Keep
the output connection to the series termination resistors
as short as possible. If driving 2 video loads, place both
resistors close to the CLC3800.
With AC-coupled loads, use an AC-coupling capacitor of
at least 220μF in a 75Ω environment. A value of at least
220μF will ensure that low frequencies are passed, preventing video droop across the line, referred to as “tilt”.
The CLC380x Family of video amplifiers add a DC offset,
©2007-2008 CADEKA Microcircuits LLC www.cadeka.com
6
Rev 1A
The input termination/source resistance is set by the application. Any value up to several kΩ can be used. Lower
values reduce noise, but if higher values are needed, there
is little effect on filter shape or distortion performance of
the CLC380x. If the CLC380x is located on the same board
as the video source, and within a few inches, the input
termination resistance is determined by the requirements
of the Video DAC or Encoder. If a cable is needed to connect the CLC380x to the video source, the termination must
match the cable impedance which is 75Ω for standard video cable.
0.35V
0.32V
Comlinear CLC3800, CLC3801, CLC3802 Triple, Standard Definition Video Amplifiers
The CLC3800, CLC3801, and CLC3802 are 3-channel video
amplifiers that operate with single supply voltages from 3V
to 7V. They are designed to accept DC-coupled inputs and
will drive AC- or DC-coupled outputs. Each channel integrates a DC offset, 4th order Butterworth filters, and fixed
gain video drivers. The filtering is appropriate for standard
definition video signals and has a -3dB cutoff of 8.6MHz.
This cutoff provides an excellent compromise between flat
in-band response and high frequency noise reduction. The
input signals are level shifted prior to the input filters and
output amplifiers.
raising the input signal by approximately 330mV. For example, when 0V is applied to the input, the output becomes
approximately 330mV above ground. This offset eliminates
sync tip clipping. Figure 2 illustrates a typical DC-coupled
input signal and resulting output signal after exiting the
CLC3800.
Data Sheet
1
IN1
OUT1
8
75Ω
220µF
75Ω
220µF
75Ω
220µF
75Ω Video Cables
2.5
2
OUT2
IN2
7
75Ω
CLC3800
3
IN3
OUT3
6
+Vs
GND
5
AC-Coupling Caps
are Optional
Figure 3. Typical Output Configuration
Power Supply Decoupling
2
1.5
SOIC-8
1
0.5
0
-40
-20
0
20
40
60
80
Ambient Temperature (°C)
For optimum performance, power supply decoupling is required. Figure 4 shows the recommended usage of power
supply decoupling capacitors. The 0.1µF decoupling capacitor must be placed as close to pin 4 as possible, <
0.1” or < 2.5mm, to be effective. The larger, 1µF capacitor can be placed further away.
1
2
IN1
OUT1
IN2
OUT2
Figure 5. Maximum Power Derating
8
7
CLC3800
3
IN3
OUT3
+Vs
GND
6
+3V or +5V
4
1.0µF
5
0.1µF
Figure 4. Recommended Power Supply Decoupling
Power Dissipation
TBD
Power Dissipation Considerations with DC-Coupled Loads
When driving DC loads, the supply current is much higher
than in AC applications and care must be taken to dissipate the extra heat generated. The output signal will
swing from about 0.3V to 2.3V for full swing video. In
the worst case condition, an all white screen with dual DC
loads, the additional thermal rise over the quiescent condition is about 20°C. An easy way to help distribute this
extra heat is to place a ground plane under the part and
add ground plane on the bottom of the board immediately
under the part with vias between the two planes.
©2007-2008 CADEKA Microcircuits LLC www.cadeka.com
7
Rev 1A
The CLC3800 is designed primarily for low voltage operation with supply values between 3.0V and 5.5V, but larger
supplies can be used. In this situation, DC loads may not
be possible due to thermal considerations. With single DC
loads on all three channels and a 12V supply, the thermal
rise is an additional 45° this gives a total temperature rise
of about 57°.
Comlinear CLC3800, CLC3801, CLC3802 Triple, Standard Definition Video Amplifiers
75Ω
4
Maximum Power Dissipation (W)
75Ω
Data Sheet
Layout Considerations
Comlinear CLC3800, CLC3801, CLC3802 Triple, Standard Definition Video Amplifiers
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
aid in device testing and characterization. Follow the steps
below as a basis for high frequency layout:
• Include 1µF and 0.1µF ceramic capacitors for power supply decoupling
• Place the 6.8µF capacitor <0.75 inches of the power pin
• Place the 0.1µF capacitor <0.1 inches of the power pin
• Remove the ground plane near the input and output pins
to reduce parasitic capacitance
• Minimize all trace lengths to reduce series inductances
Figure 10. CEB021 Top View
Refer to the evaluation board layouts for more information.
Evaluation Board Information
The following evaluation boards are available to aid in the
testing and layout of these devices:
Evaluation Board
CEB021
Products
CLC3800, CLC3801, CLC3802 in
SOIC packages
Evaluation Board Schematics
Evaluation board schematics and layouts are shown in Figures 9-11. Application Note AN-6 provides a detailed description of the evaluation board.
Figure 11. CEB006 Bottom View
SHORT FOR CLC3800/CLC3801/CLC3802
Rev 1A
Figure 9. CEB021 Schematic
©2007-2008 CADEKA Microcircuits LLC www.cadeka.com
8
Data Sheet
Typical Application Circuits
DAC Load Resistors
per Video DAC/Encoder specs
DVD Player or STB
IN1
OUT1
8
75Ω
220µF
7
75Ω
220µF
6
75Ω
220µF
75Ω Video Cables
R
75Ω
Video
DAC/
Encoder
2
G or PB
OUT2
IN2
75Ω
CLC3800
3
B or PR
IN3
G
OUT3
B
75Ω
+3V or +5V
4
1.0µF
GND
+Vs
5
0.1µF
AC-Coupling Caps
are Optional
Figure 11. Typical Configuration for Component Video (RGB, YPBPR, or YUV)
DAC Load Resistors
per Video DAC/Encoder specs
DVD Player or STB
1
Y
IN1
OUT1
8
75Ω
220µF
7
75Ω
220µF
6
75Ω
220µF
75Ω
220µF
75Ω Video Cables
Y
75Ω
Video
DAC/
Encoder
2
C
OUT2
IN2
75Ω
CLC3800
3
CV
IN3
OUT3
CV1
75Ω
+3V or +5V
4
1.0µF
C
+Vs
GND
5
0.1µF
CV2
75Ω
AC-Coupling Caps
are Optional
Figure 11. Typical Configuration for Composite Video an extra composite output is available to drive an RF modulator
Comlinear CLC3800, CLC3801, CLC3802 Triple, Standard Definition Video Amplifiers
1
R or Y
Rev 1A
©2007-2008 CADEKA Microcircuits LLC www.cadeka.com
9
Data Sheet
DAC Load Resistors
per Video DAC/Encoder specs
DVD Player or STB
1
Y
2
C
OUT1
IN2
OUT2
75Ω
8
S-Video
7
75Ω
220µF
6
75Ω
220µF
75Ω
220µF
CLC3800
3
CVBS
IN3
OUT3
220µF
75Ω
75Ω Video Cables
CVBS1
75Ω
+3V or +5V
4
1.0µF
75Ω
GND
+Vs
5
75Ω Video Cables
0.1µF
CVBS2
75Ω
AC-Coupling Caps
are Optional
Figure 11. Typical Configuration for Composite (CVBS) and S-Video
DAC Load Resistors
per Video DAC/Encoder specs
DVD Player or STB
1
R or Y
IN1
OUT1
8
75Ω
220µF
7
75Ω
220µF
6
75Ω
220µF
75Ω Video Cables
R
75Ω
2
G or PB
OUT2
IN2
75Ω
CLC3800
3
B or PR
IN3
G
OUT3
B
75Ω
+3V or +5V
Video
DAC/
Encoder
4
1.0µF
+Vs
GND
IN1
OUT1
5
0.1µF
1
Y OUT
8
75Ω
220µF
7
75Ω
220µF
6
75Ω
220µF
75Ω Video Cables
Y
75Ω
2
C OUT
OUT2
IN2
75Ω
CLC3800
3
CV OUT
IN3
OUT3
CV
75Ω
+3V or +5V
4
1.0µF
C
+Vs
GND
5
0.1µF
AC-Coupling Caps
are Optional
Rev 1A
Figure 11. Typical Configuration for 6-channel application
©2007-2008 CADEKA Microcircuits LLC Comlinear CLC3800, CLC3801, CLC3802 Triple, Standard Definition Video Amplifiers
Video
DAC/
Encoder
IN1
www.cadeka.com
10
Data Sheet
Mechanical Dimensions
SOIC-8 Package
Comlinear CLC3800, CLC3801, CLC3802 Triple, Standard Definition Video Amplifiers
Rev 1A
For additional information regarding our products, please visit CADEKA at: cadeka.com
CADEKA Headquarters Loveland, Colorado
T: 970.663.5452
T: 877.663.5452 (toll free)
CADEKA, the CADEKA logo design, COMLINEAR, the COMLINEAR logo design, and ARCTIC are trademarks or registered trademarks
of CADEKA Microcircuits LLC. All other brand and product names may be trademarks of their respective companies.
CADEKA reserves the right to make changes to any products and services herein at any time without notice. CADEKA does not assume any
responsibility or liability arising out of the application or use of any product or service described herein, except as expressly agreed to in
writing by CADEKA; nor does the purchase, lease, or use of a product or service from CADEKA convey a license under any patent rights,
copyrights, trademark rights, or any other of the intellectual property rights of CADEKA or of third parties.
Copyright ©2007-2008 by CADEKA Microcircuits LLC. All rights reserved. A m p l i fy t h e H u m a n E x p e r i e n c e