HPA Brochure - Exar Corporation

High Performance Analog
2014
www.exar.com
HIGH PERFORMANCE ANALOG → Table of Contents
Table of Contents.................................................................................................................Page 2
Company Background.........................................................................................................Page 3
Applications...........................................................................................................................Page 4
Medical.......................................................................................................................Page 4
General Purpose Industrial......................................................................................Page 6
Video...........................................................................................................................Page 9
Audio.........................................................................................................................Page 11
Instrumentation........................................................................................................Page 12
Selector Guides..................................................................................................................Page 13
Instrumentation Amp, Precision Amp, Comparator............................................Page 13
Data Converter.........................................................................................................Page 14
High Performance Amplifier...................................................................................Page 16
Legacy Products.....................................................................................................Page 18
How to Buy: Global Affiliates............................................................................................Page 19
2
HIGH PERFORMANCE ANALOG → Company Background
Exar Corporation designs, develops and markets high performance analog mixed-signal
integrated circuits and advanced sub-system solutions for data communication, networking,
storage, consumer and industrial applications. Exar’s product portfolio includes power
management and connectivity components, communications products, network security and
storage optimization solutions. Exar has locations worldwide providing real-time customer
support.
Exar Facts
Product Lines
• Entity: Founded 1971, Public: 1985
• Power Management
• Headquarters: Fremont, California
• Connectivity
• Design Centers:
Silicon Valley, California
Loveland, Colorado
Eatontown, New Jersey
Toronto, Canada
Hangzhou, China
Wuxi, China
• Data Compression & Security
• High Performance Analog
• Communications
www.exar.com | www.exarcorp.cn
3
HIGH PERFORMANCE ANALOG → HPA Products for Medical Applications
Example Applications
Medical Imaging
•Ultrasound
•MRI
• Patient monitors
Medical Diagnostics
• Blood analyzer
•Thermometer
• Pulse oximetry
•
•
Blood pressure monitor
ECG / EKG
Medical
DiagnosticsSignal
SignalPath
Path Block
Medical
Diagnostics
BlockDiagram
Diagram
Input From:
Pressure Sensor
Flow Valve
Chemical Sensor
Photo Diode
Temperature Sensor
etc.
INST
AMP
System
Processor /
DSP
Precision
ADC
Precision
AMP
Typical ECG Application Circuit
+3V
Patient/Circuit
Protection/Isolation
7
3
R3
24.9k Ω
R1
10k Ω
C1
R2
24.9k Ω
R4
1MΩ
8
RG
8.25k Ω
CLC1200
0.03Hz
High-Pass
Filter
6
G=7
1
5
2
G = 143
Output
1V/mV
Output
Amplifier
4
CLC1003
–3V
Medical Imaging Signal Path Block Diagram
Medical Imaging Signal Path Block Diagram
Digital Video
Outputs
DAC
AMP
Tx/Rx
Switch
HV
Tx
Probe
Signal
VGA
LNA
LNA
I/Q
Processing
Beamformer
Tx/Rx
ADC
Doppler
Imaging
Processing
ADC
AMP
Low Noise Pre-Amp
in Probe
Analog Video
Outputs
DAC
Audio
Codec
Analog Audio
Outputs
AMP
Precision Amplifiers
Name
# of Power Rail-to- GBW
Ch Down Rail
(MHz)
SR
(V/μs)
Is per
ch
(mA)
Iout
(mA)
Drift Vio
en at
Noise 0.1Hz
Ibn Max
Vio Max
MAX
1kHz
to 10Hz
(pA)
(μV)
(µV/°C)
(nV/√Hz)
(µVpp)
AOL
(dB)
CMRR Min Vs Max Vs
(V)
(V)
(dB)
XR11250*
1
No
Out
1
0.5
0.4
30
42
TBD
5
0.04
200
145
140
2.5
5.5
XR11270*
1
No
No
7
3
0.9
35
3
TBD
25
0.6
10nA
134
126
4
36
XR12250*
2
No
Out
1
0.5
0.4
30
42
TBD
5
0.04
200
145
140
2.5
5.5
Note: *Advance Information, contact Exar for availability
4
High Performance Amplifiers
# of Ch
Power
Down
Rail-toRail
GBW
(MHz)
SR
(V/µs)
CLC1001
1
Yes
Out
2100
410
12.5
CLC1002
1
Yes
Out
965
170
CLC1003
1
No
In / Out
35
CLC1008
1
No
Out
33
CLC1020
1
No
Out
2.1
2.7
Name
Is per Ch
en
(mA)
(nV/√Hz)
Vio Max
(±) (mV)
AOL
(dB)
PSRR
(dB)
CMRR
(dB)
THD
(dBc)
Min Vs
(V)
Max Vs
(V)
0.6
1
83
83
90
74
4
12
13
0.6
1
83
83
90
65.5
4
12
12
2.2
3.5
1
115
100
95
123
2.5
12
50
0.505
12
5
80
66
74
60
2.5
5.5
0.127
18
6
122
73
67
65
2.7
5.5
CLC1050
1
No
No
0.84
0.285
0.65
40
5
100
100
70
76.5
3
36
XR1008
1
No
Out
33
50
0.505
12
5
80
66
74
60
2.5
5.5
CLC2008
2
No
Out
33
50
0.505
12
5
80
66
74
60
2.5
5.5
CLC2011
2
No
In / Out
2.5
9
0.16
22
8
80
85
80
71
2.5
5.5
CLC2023
2
No
In / Out
35
12
2.2
3.5
6
115
100
85
123
2.5
12
CLC2050
2
No
No
0.84
0.285
0.65
40
5
100
100
70
76.5
3
36
CLC2058
2
No
No
5.5
2.8
1.25
10
5
100
95
100
94
4
36
CLC2059
2
No
No
15
7
1.5
4
3
110
110
110
106
4
36
XR2008
2
No
Out
33
50
0.505
12
5
80
66
74
60
2.5
5.5
CLC4011
4
No
In / Out
2.5
9
0.16
22
8
80
85
80
71
2.5
5.5
CLC4050
4
No
No
0.84
0.285
0.65
40
5
100
100
70
76.5
3
36
Instrumentation Amplifiers
# of Ch
Gain Range
Gmin
(V/V)
BW @ Gmin
(MHz)
Is per Ch
(mA)
Max Vio
(±) (μV)
CMRR
(dB)
en
(nV/√Hz)
Min Vs
(V)
Max Vs
(V)
CLC1200
1
1 to 10,000
1
0.7
1.3
125
130
6.6
4.6
36
XR11206*
1
1 to 10,000
1
6
0.8
50
100
9
4.6
36
XR620A
1
1 to 10,000
1
0.7
1.3
125
130
6.6
4.6
36
Name
Note: *Advance Information, contact Exar for availability
Medical Imaging ADCs
# of Ch
Resolution
(bits)
Sample Rate
(MSPS)
SNR
(dBFS)
ENOB
(bits)
Power Consumption
per Ch (mW)
Power Dissipation
(mW)
Input Type
CDK1307B
1
12
40
72.7
11.7
33
33
Diff
CDK1307C
1
12
65
72.6
11.6
50
50
Diff
CDK1308B
1
10
40
61.6
9.9
25
25
Diff
CDK1308C
1
10
65
61.6
9.9
38
38
Diff
CDK2307B
2
12
40
72.7
11.7
28
55
Diff
CDK2307C
2
12
65
72.6
11.6
43
85
Diff
CDK2308B
2
10
40
61.6
9.9
22
43
Diff
CDK2308C
2
10
65
61.6
9.9
33
65
Diff
Name
CDK8307B
8
12
40
72.2
11.6
34
272
Diff
CDK8307C
8
12
50
72.2
11.6
40
321
Diff
CDK8307D
8
12
65
72.2
11.6
48
382
Diff
Triple Video DACs
# of Ch
Resolution
(bits)
Conversion Rate
(MWPS)
DLE
(%/FS)
ILE
(%/FS)
Power Dissipation
(mW)
Min Vs
(V)
Max Vs
(V)
3
10
100
±0.1
±0.1
655
4.75
5.25
CDK3401
3
10
150
±0.1
±0.1
655
4.75
5.25
CDK3402
3
8
100
±0.2
±0.2
655
4.75
5.25
Name
CDK3400
CDK3403
3
8
150
±0.2
±0.2
655
4.75
5.25
CDK3404
3
8
180
±0.5 max (LSB)
±0.5 max (LSB)
300
3.0
3.6
CDK3405
3
8
180
±0.5 max (LSB)
±0.5 max (LSB)
300
3.0
3.6
5
HIGH PERFORMANCE ANALOG → HPA Products for General Purpose Industrial Applications
Example Applications
•
•
•
Pressure sensor
Weigh scale sensor
Flow meter
• Power line communications
• Current shunt
•E-Whiteboard
•
•
Collision avoidance systems
Laser range finder
Typical Power Line Communications Application Circuit
+12V
+
CLC4000
-
10k
+6V
Transmit
Filter
To Power Line
300
680
50
680
50
4
3
10k
2
-
5
S1
6
CLC4000
+
AFE
S3
S2
1
1.6k
1.6k
Comparator
1:1:1 Transformer
Vcm
+
CLC4000
-
800
Receiver
Filter
800
Vcm
CLC4000
+
Current Sensing in 3-Phase Motor Applications
5V Pressure Sensor Reference Design
+5V
1.5mA
VCC
1
2
IN
OUT
GND
SPX5205
1u
+
CLC1003
M
EN
lph_1
62k
4
+5V
2
1u
1
24k
VR1 = Offset
200Ω
6
FPM-50PG
(Fujikura)
3kΩ
3
3
1
0.1u
+
7
Vout
FS = 4V
1k
6
5
8
2
lph_2
10u
0.1u
ADJ
1u
–
SPM
(Smart
Power
Module)
3
-
5
VR2 = Fullscale = 3kΩ
CLC1200
-
5
REF
+5V
4
NC
0
lph_3
6
High Performance Amplifiers
# of Ch
Rail-to-Rail
GBW
(MHz)
SR
(V/µs)
Is per Ch
(mA)
Iout
(mA)
en
(nV/√Hz)
Vio Max
(±) (mV)
PSRR
(dB)
CMRR
(dB)
Min Vs
(V)
Max Vs
(V)
CLC1001
1
Yes
Out
No
12.5
130
0.6
1
83
90
4
12
CLC1002
1
Out
965
170
13
130
0.6
1
83
90
4
12
CLC1003
1
In / Out
35
12
2.2
80
3.5
1
100
95
2.5
12
CLC1005
1
Out
90
145
4.2
55
16
8
57
87
2.5
5.5
CLC1007
1
Out
95
220
2.6
100
16
7
102
100
2.7
12.6
CLC1008
1
Out
33
50
0.505
15
12
5
66
74
2.5
5.5
CLC1009
1
Out
20
27
0.208
8.5
21
5
60
95
2.5
5.5
CLC1010
1
Out
4
9
0.07
4
29
5
63
95
2.5
5.5
CLC1014
1
No
NS
1400
12
100
4
10
56
60
4.5
12
CLC1020
1
Out
2.1
2.7
0.127
69
18
6
73
67
2.7
5.5
CLC1050
1
No
0.84
0.285
0.65
40
40
5
100
70
3
36
LMV321
1
Out
1
>1
0.13
60
39
7
60
65
2.7
5.5
XR1008
1
Out
33
50
0.505
15
12
5
66
74
2.5
5.5
XR1009
1
Out
20
27
0.208
8.5
21
5
60
95
2.5
5.5
XR8051
1
Out
65
190
2.6
100
16
7
102
100
2.7
12.6
CLC2000
2
No
220
210
7
200
4.5
6
81
79
5
13
CLC2005
2
Out
90
145
4.2
55
16
8
57
87
2.5
5.5
CLC2007
2
Out
95
220
2.6
100
16
7
102
100
2.7
12.6
CLC2008
2
Out
33
50
0.505
15
12
5
66
74
2.5
5.5
CLC2009
2
Out
20
27
0.208
8.5
21
5
60
95
2.5
5.5
CLC2010
2
Out
4
9
0.07
4
29
5
63
95
2.5
5.5
CLC2011
2
In / Out
2.5
9
0.16
35
22
8
85
80
2.5
5.5
CLC2023
2
In / Out
35
12
2.2
60
3.5
6
100
85
2.5
12
CLC2050
2
No
0.84
0.285
0.65
40
40
5
100
70
3
36
CLC2058
2
No
5.5
2.8
1.25
35
10
5
95
100
4
36
CLC2059
2
No
15
7
1.5
45
4
3
110
110
4
36
XR2008
2
Out
33
50
0.505
15
12
5
66
74
2.5
5.5
XR2009
2
Out
20
27
0.208
8.5
21
5
60
95
2.5
5.5
XR8052
2
Out
65
190
2.6
100
16
7
102
100
2.7
12.6
CLC4000
4
No
220
210
7
200
4.5
6
81
79
5
13
CLC4007
4
Out
95
220
2.6
100
16
7
102
100
2.7
12.6
CLC4011
4
In / Out
2.5
9
0.16
35
22
8
85
80
2.5
5.5
CLC4050
4
No
0.84
0.285
0.65
40
40
5
100
70
3
36
XR8054
4
Out
65
190
2.6
100
16
7
102
100
2.7
12.6
Name
Comparators
# of Ch
Output Type
Response Time
(µs)
Vio
(mV)
CMIR
(V)
Is per Ch
(mA)
Min Vs
(V)
Max Vs
(V)
CLC2550
2
Open Collector
1.3
2
-VS - 1.5
0.15
2
36
CLC4550
4
Open Collector
1.3
2
-VS - 1.5
0.225
2
36
Name
7
XR10910 Typical Application: 16:1 Bridge Sensor Interface
•
Integrates multiple bridge sensors with a MCU or FPGA
•
Integrated offset correction DAC provides digital calibration
of variable offset voltage generated by the bridge sensors
•I2C interface provides user with easy controls for input, gain,
and LDO voltage selection, as well as offset calibration
•
Integrated LDO provides regulated voltage (3V or 2.65V) to
power the input bridge sensors
VCC
BRDG
1.5V
Bridge 16
LDO
IN16+
+
isense
_
IN16-
+
PGA
2:1
MUX
16 : 1
MUX
OUT
ADC
_
µC
_
Bridge 1
+
IN1+
±610mV
offset trim
IN1-
PGA
10-bit
DAC
SDA
I2C Control
XR10910
SCL
Sensor Interface Products
Name
# of
Ch
Interface
Integrated Features
Gain Range
(V/V)
Gain
Error
(%)
Max
Vio
(mv)
Max
Ib
(pA)
Min
CMRR
(dB)
VCC
Range
(V)
VDD
Range
(V)
Temperature
Range
Package
XR10910*
16:1
I 2C
16:1 Diff Mux, INA, LDO,
Offset Correction DAC
8 gains from
2 to 760
±0.2
1
100
90
2.7 to 5
1.8 to 5
-40° to 85°
QFN-40
XR10911*
8:1
I2C
8:1 Diff Mux, INA, LDO,
Offset Correction DAC
8 gains from
2 to 760
±0.2
1
100
90
2.7 to 5
1.8 to 5
-40° to 85°
QFN-32
XR10912*
4:1
I2C
4:1 Diff Mux, INA, LDO,
Offset Correction DAC
8 gains from
2 to 760
±0.2
1
100
90
2.7 to 5
1.8 to 5
-40° to 85°
TSSOP-16
Note: *Advance Information, contact Exar for availability
Precision Amplifiers
Name
# of Power Rail-to- GBW
Ch Down Rail
(MHz)
SR
(V/μs)
Is per
ch
(mA)
Iout
(mA)
Drift Vio
en at
Noise 0.1Hz
Ibn Max
Vio Max
MAX
1kHz
to 10Hz
(pA)
(μV)
(µV/°C)
(nV/√Hz)
(µVpp)
AOL
(dB)
CMRR Min Vs Max Vs
(V)
(V)
(dB)
XR11250*
1
No
Out
1
0.5
0.4
30
42
TBD
5
0.04
200
145
140
2.5
5.5
XR11270*
1
No
No
7
3
0.9
35
3
TBD
25
0.6
10nA
134
126
4
36
XR12250*
2
No
Out
1
0.5
0.4
30
42
TBD
5
0.04
200
145
140
2.5
5.5
Note: *Advance Information, contact Exar for availability
Instrumentation Amplifiers
# of Ch
Gain Range
Gmin
(V/V)
BW @ Gmin
(MHz)
Is per Ch
(mA)
Max Vio
(±) (µV)
CMRR
(dB)
en
(nV/√Hz)
Min Vs
(V)
Max Vs
(V)
CLC1200
1
1 to 10,000
1
0.7
1.3
125
130
6.6
4.6
36
XR11206*
1
1 to 10,000
1
6
0.8
50
100
9
4.6
36
XR602A
1
1 to 10,000
1
0.7
1.3
125
130
6.6
4.6
36
Name
Note: *Advance Information, contact Exar for availability
8
E
HIGH PERFORMANCE ANALOG→ HPA Products for Video Applications
Example End Systems and Applications
•
Security and surveillance
•
Home gateway
•
Car Infotainment
•
CCTV multi circuit UTP transmission
•
Video distribution
Video Signal Path Block Diagram
Video Signal Path Block Diagram
Analog Inputs
USB Inputs
AMP
SOC ASIC
or
FPGA
ADC
AMP
DAC
Analog Video
Outputs
Alternative Signal Path
USB
Switch
Video Surveillance and Distribution over UTP
Tx Reference
Design
Video Input
Rx Reference
Design
UTP Cable
300m - 1800m
Video Output
Video Distribution Over CAT5 Reference Designs
Exar provides a variety of reference designs:
•
Composite Video ( CVBS ) Transmitter ( Tx ) and Receiver (Rx) from 300m to 1800m
•
SDVGA Video Transmitter and Receiver for 300m
•
HDVGA Extender including audio and separate video sync in a single cable
CVBS Tx/Rx Reference Design
9
Video Amplifiers
# of Ch
Rail-to-Rail
Input
Includes -Vs
G=2 BW
(MHz)
0.1dB BW
(MHz)
DG
(%)
DP
(°)
Is per Ch
(mA)
Iout
(mA)
Cross-talk
(dB)
Min Vs
(V)
Max Vs
(V)
CLC1005
1
Out
Yes
90
9.5
0.06
0.07
4.2
55
N/A
2.5
5.5
CLC1006
1
No
No
500
50
0.02
0.05
5.5
100
N/A
4.5
12
CLC1007
1
Out
Yes
85
22
0.03
0.03
2.6
100
N/A
2.7
12.6
CLC1008
1
Out
Yes
35
NS
NS
NS
0.505
15
N/A
2.5
5.5
CLC1014
1
No
No
750
200
0.02
0.01
12
100
N/A
4.5
12
CLC1605
1
No
No
1200
120
0.01
0.01
12
120
N/A
4.5
12
CLC1606
1
No
No
1200
150
0.01
0.01
7.5
120
N/A
4.5
12
XR1008
1
Out
Yes
35
NS
NS
NS
0.505
15
N/A
2.5
5.5
XR8051
1
Out
Yes
65
20
0.03
0.03
2.6
100
N/A
2.7
12.6
CLC2000
2
No
No
250
32
0.009
0.06
7
200
62
5
13
CLC2005
2
Out
Yes
90
9.5
0.06
0.07
4.2
55
62
2.5
5.5
CLC2007
2
Out
Yes
85
22
0.03
0.03
2.6
100
58
2.7
12.6
CLC2008
2
Out
Yes
35
NS
NS
NS
0.505
15
NS
2.5
5.5
CLC2605
2
No
No
1200
120
0.01
0.01
12
120
N/A
4.5
12
XR2008
2
Out
Yes
35
NS
NS
NS
0.505
15
NS
2.5
5.5
XR8052
2
Out
Yes
65
20
0.03
0.03
2.6
100
58
2.7
12.6
CLC3601
3
No
No
335
120
0.01
0.06
5.2
52
56
8
12
CLC4000
4
No
No
250
32
0.009
0.06
7
200
62
5
13
CLC4007
4
Out
Yes
85
22
0.03
0.03
2.6
100
58
2.7
12.6
CLC4601
4
No
No
335
120
0.01
0.06
5.2
52
56
8
12
XR8054
4
Out
Yes
65
20
0.03
0.03
2.6
100
58
2.7
12.6
Name
Triple Video DACs
# of Ch
Resolution
(bits)
Conversion Rate
(MWPS)
DLE
(%/FS)
ILE
(%/FS)
Power Dissipation
(mW)
Min Vs
(V)
Max Vs
(V)
CDK3400
3
10
100
±0.1
±0.1
655
4.75
5.25
CDK3401
3
10
150
±0.1
±0.1
655
4.75
5.25
CDK3402
3
8
100
±0.2
±0.2
655
4.75
5.25
CDK3403
3
8
150
±0.2
±0.2
655
4.75
5.25
CDK3404
3
8
180
±0.5 max (LSB)
±0.5 max (LSB)
300
3.0
3.6
CDK3405
3
8
180
±0.5 max (LSB)
±0.5 max (LSB)
300
3.0
3.6
Name
10
HIGH PERFORMANCE ANALOG → HPA Products for Audio Applications
Example End Systems and Applications
• Professional audio systems
• Portable audio applications
•
•
Audio amplifier
Audio tone control
•
•
Single Supply Audio Driver with 200kHz Filter
Headphone driver
Audio filter/driver
Audio Tone Control Circuit
68k
82pF
Boost-Bass-Cut
+5V
10uF
4.7k
1.2k
+
20k
C1
0.05μF
100k
C2
0.05μF
R4
11kΩ
+
–
220uF
10pF
+
10uF
4.7k
1.2k
R3
11kΩ
R2
100kΩ
200k
10k
10uF
½ CLC2059
C3
0.005μF
1k
VOUT
+
AUDIO L OUT
½ CLC2023
-
R5
3.6kΩ
100k
2700pF
270k
VIN
AUDIO R OUT
-
+5V
AUDIO IN
1k
½ CLC2023
2700pF
270k
10uF
R1
11kΩ
R6
500kΩ
R7
3.6kΩ
Boost-Treble-Cut
82pF
68k
CLC2023 Distortion Performance
CLC2059 Input Voltage Noise Performance
20
THD vs. Frequency at VS = 5V
-70
CL
C2
THD (dB)
-75
Input Voltage Noise (nV/√Hz)
-65
02
3
-80
-85
-90
10
5
VOUT = 1Vpp
RL = 1K
AV+1
-95
-100
15
0
100
200
300
400
500
600
700
800
900
1000
Frequency (kHz)
1
10
Frequency (Hz)
100
1,000
Audio Amplifiers
Name
# of Ch Rail-to-Rail
GBW
(MHz)
Is per Ch
(mA)
Iout
(mA)
en
(nV/√Hz)
PSRR
dB
CMRR
dB
THD
dBc
Crosstalk
(dB)
Min Vs
(V)
Max Vs
(V)
CLC1003
1
In / Out
35
2.2
80
3.5
100
95
123
N/A
2.5
12
CLC2000
2
No
220
7
200
4.5
81
79
82
62
5
13
CLC2011
2
In / Out
2.5
0.16
35
22
85
80
71
82
2.5
5.5
CLC2023
2
In / Out
35
2.2
60
3.5
100
85
123
70
2.5
12
CLC2050
2
No
0.84
0.65
40
40
100
70
76.5
120
3
36
CLC2058
2
No
5.5
1.25
35
10
95
100
94
65
4
36
CLC2059
2
No
15
1.5
45
4
110
110
106
67
4
36
CLC4000
4
No
220
7
200
4.5
81
79
82
62
5
13
CLC4011
4
In / Out
2.5
0.16
35
22
85
80
71
82
2.5
5.5
CLC4050
4
No
0.84
0.65
40
40
100
70
76.5
120
3
36
11
HIGH PERFORMANCE ANALOG → Instrumentation Amp, Precision Amp, Comparator Selector Guide
Example End Systems and Applications
•
•
•
•
Automatic test equipment (ATE)
Digital oscilloscope (DSO)
Arbitrary waveform generators
Aircraft camera
•Aviation
•Aerospace
•Radar
Instrumentation / Hi-REL Signal Path Block Diagram
Instrumentation Signal Path Block Diagram
Analog Inputs
LPF
AMP
Analog Inputs
LPF
AMP
Trigger Input
ADC Driver
ADC
AMP
ADC
AMP
DSP or
FPGA
Analog Outputs
DAC
Alternative Signal Path
Comparator
High Speed Amplifiers
# of Ch
Power
Down
Gmin
(V/V)
BW @ Gmin
(MHz)
SR
(V/µs)
Is per Ch
(mA)
Iout
(mA)
en
(nV/√Hz)
Vio Max
(±)(mV)
HD2
dBc
HD3
dBc
Min Vs
(V)
Max Vs
(V)
CLC1001
1
Yes
10
284
410
12.5
130
0.6
1
81
75
4
12
CLC1006
1
No
2
500
1400
5.5
100
5
10
68
63
4.5
12
CLC1014
1
No
2
750
1400
12
100
4
10
71
82
4.5
12
CLC1605
1
No
1
1500
2500
12
120
3.7
10
73
85
4.5
12
CLC1606
1
No
1
1300
3300
7.5
120
3
10
71
71
4.5
12
CLC3601
3
No
1
550
1500
5.2
52
7
7.5
82
83
8
12
CLC4601
4
No
1
550
1500
5.2
52
7
7.5
82
83
8
12
Name
12
HIGH PERFORMANCE ANALOG → Instrumentation Amp, Precision Amp, Comparator Selector Guide
High Performance Instrumentation Amplifiers
Name
# of Ch Gain Range
Gmin
(V/V)
BW @
Gmin (MHz)
Is per Ch
(mA)
Max Vio (±)
(µV)
CMRR
dB
en
(nV/√Hz)
Min Vs
(V)
Max Vs
(V)
Package
CLC1200
1
1 to 10,000
1
0.7
1.3
125
130
6.6
4.6
36
SOIC-8, DIP-8
XR11206*
1
1 to 10,000
1
6
0.8
50
100
9
4.6
36
SOIC-8, DIP-8
XR620A
1
1 to 10,000
1
0.7
1.3
125
130
6.6
4.6
36
SOIC-8, DIP-8
Note: *Advance Information, contact Exar for availability. CLC1200 Functional Block Diagram
Temperature Range = -40°C to +85°C
Frequency
Response(G=1)
(G=1)
Frequency
Response
3
2
+
-IN
Competitor A
1
Normalized Gain (dB)
–
–
RG
OUT
+
–
REF
+
+IN
0
-1
CLC1200
-2
-3
G=1
-4
CL
C1
VS = ±15V
-5
VOUT = 0.2Vpp
-6
RL = 2kΩ
-7
0.0001
0.001
20
0
0.01
0.1
1
Frequency (MHz)
10
Precision Amplifiers
Name
# of Power
Ch Down
Noise
en at
RailIs per
0.1Hz
Iout
GBW SR
toch
1kHz
(MHz) (V/μs)
to 10Hz
(mA)
Rail
(mA)
(nV/√Hz)
(µVpp)
Vio
Max
(μV)
Drift
Ibn
Vio
Max
MAX
(pA)
(µV/°C)
XR11250*
1
No
Out
Yes
1
0.500
0.4
30
42
5
0.04
XR11270*
1
No
No
No
7
3.000
0.9
35
3
25
0.6
XR12250*
2
No
Out
Yes
1
0.500
0.4
30
42
5
0.04
AOL CMRR
(dB) (dB)
Min Max
Temp Range
Vs
Vs
°C
(V)
(V)
Package
145
140
2.5
5.5
-40 to +125
TSOT-5,
SOIC-8
10nA 134
126
4
36
-40 to +125
TSOT-5,
SOIC-8
140
2.5
5.5
-40 to +125
MSOP-8,
SOIC-8
200
200
145
Note: *Advance Information, contact Exar for availability
Comparators
# of Ch
Output Type
Response Time
(µs)
Vio
(mV)
CMIR
(V)
Is per Ch
(mA)
Min Vs
(V)
Max Vs
(V)
Temp Range
°C
Package
CLC2550
2
Open Collector
1.3
2
-VS - 1.5
0.6
2
36
-40 to 85
SOIC-8
CLC4550
4
Open Collector
1.3
2
-VS - 1.5
0.9
2
36
-40 to 85
SOIC-14
Name
Sensor Interface Products
Name
# of
Ch
Interface
Integrated Features
Gain Range
(V/V)
Gain
Error
(%)
Max
Vio
(mv)
Max
Ib
(pA)
Min
CMRR
(dB)
VCC
Range
(V)
VDD
Range
(V)
Temp Range
°C
Package
XR10910*
16:1
I 2C
16:1 Diff Mux, INA, LDO,
Offset Correction DAC
8 gains from
2 to 760
±0.2
1
100
90
2.7 to 5
1.8 to 5
-40 to 85
QFN-40
XR10911*
8:1
I2C
8:1 Diff Mux, INA, LDO,
Offset Correction DAC
8 gains from
2 to 760
±0.2
1
100
90
2.7 to 5
1.8 to 5
-40 to 85
QFN-32
XR10912*
4:1
I2C
4:1 Diff Mux, INA, LDO,
Offset Correction DAC
8 gains from
2 to 760
±0.2
1
100
90
2.7 to 5
1.8 to 5
-40 to 85
TSSOP-16
Note: *Advance Information, contact Exar for availability
13
HIGH PERFORMANCE ANALOG → Data Conver ter Selector Guide
Digital to Analog Converters (DACs)
# of
Converters
Resolution
(Bits)
Conversion
Rate
(MWPS)
Settling
Time
(ns)
DNL
(max)
(%/FS)
INL
(max)
(%/FS)
Power Dissipation
(max)
(mW)
Temp
Range
(°C)
Packages
CDK3400
3
10
100
n/a
±0.25
±0.25
655
0 to 70
TQFP-48
CDK3401
3
10
150
n/a
±0.25
±0.25
655
0 to 70
TQFP-48
CDK3402
3
8
100
n/a
±0.3
±0.3
655
0 to 70
TQFP-48
CDK3403
3
8
150
n/a
±0.3
±0.3
655
0 to 70
TQFP-48
CDK3404
3
8
180
2.5
±0.5 LSB
±0.5 LSB
300
-40 to 125
TQFP-48
CDK3405
3
8
180
2.5
±0.5 LSB
±0.5 LSB
300
-40 to 125
TQFP-48
Part
Number
Note: CDK3405 matches ADV7125 pinout.
Analog to Digital Converters (ADCs)
# of
Ch
Resolution
(Bits)
Sample
Rate
(max)
(MSPS)
SNR
(dBFS)
SINAD
(dBFS)
SFDR
(dBc)
ENOB
(Bits)
Power
Consumption
per Ch
(mW)
Total
Power
Dissipation
(mW)
Input
Type
Architecture
Temp
Range
(°C)
Packages
CDK1307A
1
12
20
72.2
72.0
85
11.7
19
19
Diff
Pipeline
-40 to 85
QFN-40
CDK1307B
1
12
40
72.7
72.1
81
11.7
33
33
Diff
Pipeline
-40 to 85
QFN-40
CDK1307C
1
12
65
72.6
71.7
81
11.6
50
50
Diff
Pipeline
-40 to 85
QFN-40
CDK1307D
1
12
80
72.0
70.5
77
11.4
60
60
Diff
Pipeline
-40 to 85
QFN-40
CDK2307A
2
12
20
72.2
72.0
85
11.7
15
30
Diff
Pipeline
-40 to 85
QFN-64
CDK2307B
2
12
40
72.7
72.1
81
11.7
28
55
Diff
Pipeline
-40 to 85
QFN-64
CDK2307C
2
12
65
72.6
71.7
81
11.6
43
85
Diff
Pipeline
-40 to 85
QFN-64
Part
Number
14
Analog to Digital Converters (ADCs)
# of
Ch
Resolution
(Bits)
Sample
Rate
(max)
(MSPS)
SNR
(dBFS)
SINAD
(dBFS)
SFDR
(dBc)
ENOB
(Bits)
Power
Consumption
per Ch
(mW)
Total
Power
Dissipation
(mW)
Input
Type
Architecture
Temp
Range
(°C)
Packages
CDK2307D
2
12
80
72.0
70.5
77
11.4
51
102
Diff
Pipeline
-40 to 85
QFN-64
CDK1308A
1
10
20
61.6
61.6
81
9.9
15
15
Diff
Pipeline
-40 to 85
QFN-40
CDK1308B
1
10
40
61.6
61.6
81
9.9
25
25
Diff
Pipeline
-40 to 85
QFN-40
CDK1308C
1
10
65
61.6
61.6
77
9.9
38
38
Diff
Pipeline
-40 to 85
QFN-40
CDK1308D
1
10
80
61.6
61.3
75
9.9
46
46
Diff
Pipeline
-40 to 85
QFN-40
CDK2308A
2
10
20
61.6
61.6
81
9.9
12
24
Diff
Pipeline
-40 to 85
QFN-64
CDK2308B
2
10
40
61.6
61.6
81
9.9
22
43
Diff
Pipeline
-40 to 85
QFN-64
CDK2308C
2
10
65
61.6
61.6
77
9.9
33
65
Diff
Pipeline
-40 to 85
QFN-64
CDK2308D
2
10
80
61.6
61.6
75
9.9
39
78
Diff
Pipeline
-40 to 85
QFN-64
CDK8307A
8
12
20
72.2
71.5
82
11.6
22
175
Diff
Pipeline
-40 to 85
QFN-64
CDK8307B
8
12
40
72.2
71.5
82
11.6
34
272
Diff
Pipeline
-40 to 85
QFN-64
CDK8307C
8
12
50
72.2
71.5
82
11.6
40
321
Diff
Pipeline
-40 to 85
QFN-64
CDK8307D
8
12
65
72.2
71.5
82
11.6
48
382
Diff
Pipeline
-40 to 85
QFN-64
CDK8307E
8
12
80
70.1
69.6
77
11.3
59
470
Diff
Pipeline
-40 to 85
QFN-64
Part
Number
Notes: Diff = Differential, SE = Single-Ended, Folding = Folding & Interpolation.
15
HIGH PERFORMANCE ANALOG → High Per formance Amplifier Selector Guide
High Performance Amplifiers
Name
# of Power Rail-toCh Down
Rail
Gmin
(V/V)
Is per
BW @ G=2
SR
Ch
BW
Gmin
(V/µs)
(mA)
(MHz) (MHz)
Iout
(mA)
en Vio Max
AOL THD
(±)
(nV/
(dB) (dBc)
(mV)
√Hz)
Min
Vs
(V)
Min
Vs
(V)
Temp
Range (°C)
Package
CLC1001
1
Yes
Out
10
284
N/A
410
12.5
130
0.6
1
83
74
4
12
-40 to +125
TSOT-6, SOIC-8
CLC1002
1
Yes
Out
5
290
N/A
170
13
130
0.6
1
83
65.5
4
12
-40 to +125
TSOT-6, SOIC-8
CLC1003
1
No
In / Out
1
55
25
12
2.2
80
3.5
1
115
123
2.5
12
-40 to +125
TSOT-5, SOIC-8
CLC1005
1
No
Out
1
260
90
145
4.2
55
16
8
78
70
2.5
5.5
-40 to +85
TSOT-5
CLC1006
1
No
No
2
500
500
1,400
5.5
100
5
10
61
62
4.5
12
-40 to +85
TSOT-5, SOIC-8
CLC1007
1
No
Out
1
250
85
220
2.6
100
16
7
92
75
2.7
12.6
-40 to +125
TSOT-5, SOIC-8
CLC1008
1
No
Out
1
75
35
50
0.505
15
12
5
80
60
2.5
5.5
-40 to +85
TSOT-5, SOIC-8
CLC1009
1
No
Out
1
35
18
27
0.208
8.5
21
5
62
65
2.5
5.5
-40 to +85
TSOT-5, SOIC-8
CLC1010
1
No
Out
1
7.3
3.4
9
0.07
4
29
5
76
59
2.5
5.5
-40 to +85
TSOT-5, SOIC-8
CLC1014
1
No
No
2
750
750
1,400
12
100
4
10
70
70
4.5
12
-40 to +85
TSOT-5, TSOT-5
CLC1020
1
No
Out
1
1.8
0.9
2.7
0.127
69
18
6
122
65
2.7
5.5
-40 to +125
TSOT-5
CLC1050
1
No
No
1
0.33
0.3
0.285
0.65
40
40
5
100
76.5
3
36
-40 to +85
TSOT-5, SOIC-8
CLC1605
1
No
No
1
1500
1200
2,500
12
120
3.7
10
NS
72
4.5
12
-40 to +85
TSOT-5
CLC1606
1
No
No
1
1300
1200
3,300
7.5
120
3
10
NS
68
4.5
12
-40 to +85
TSOT-5
LMV321
1
No
Out
1
2
1
>1
0.13
60
39
7
80
110
2.7
5.5
-40 to +85
TSOT-5
XR1008
1
No
Out
1
75
35
50
0.505
15
12
5
80
60
2.5
5.5
-40 to +125
TSOT-5, SOIC-8
XR1009
1
No
Out
1
35
18
27
0.208
8.5
21
5
62
65
2.5
5.5
-40 to +125
TSOT-5, SOIC-8
XR8051
1
No
Out
1
175
65
190
2.6
100
16
7
92
75
2.7
12.6
-40 to +125
TSOT-5, SOIC-8
CLC2000
2
No
No
1
510
250
210
7
200
4.5
6
76
82
5
13
-40 to +85
SOIC-8
CLC2005
2
No
Out
1
260
90
145
4.2
55
16
8
78
70
2.5
5.5
-40 to +85
SOIC-8
16
High Performance Amplifiers
Name
# of Power Rail-toCh Down
Rail
Gmin
(V/V)
Is per
BW @ G=2
SR
Ch
BW
Gmin
(V/µs)
(mA)
(MHz) (MHz)
Iout
(mA)
en Vio Max
AOL THD
(±)
(nV/
(dB) (dBc)
(mV)
√Hz)
Min
Vs
(V)
Min
Vs
(V)
Temp
Range (°C)
Package
CLC2007
2
No
Out
1
250
85
220
2.6
100
16
7
92
75
2.7
12.6
-40 to +125
MSOP-8, SOIC-8
CLC2008
2
No
Out
1
75
35
50
0.505
15
12
5
80
60
2.5
5.5
-40 to +85
SOIC-8
CLC2009
2
No
Out
1
35
18
27
0.208
8.5
21
5
62
65
2.5
5.5
-40 to +85
SOIC-8
CLC2010
2
No
Out
1
7.3
3.4
9
0.07
4
29
5
76
59
2.5
5.5
-40 to +85
SOIC-8
CLC2011
2
No
In / Out
1
4.3
3
9
0.16
35
22
8
80
71
2.5
5.5
-40 to +125
MSOP-8, SOIC-8
CLC2023
2
No
In / Out
1
55
25
12
2.2
60
3.5
6
115
123
2.5
12
-40 to +125
MSOP-8, SOIC-8
CLC2050
2
No
No
1
0.33
0.3
0.285
0.65
40
40
5
100
76.5
3
36
-40 to +85
SOIC-8
CLC2058
2
No
No
1
4.86
3.49
3
1.25
35
10
5
100
94
4
36
-40 to +85
SOIC-8
CLC2059
2
No
No
1
11.7
6.3
7
1.5
45
4
3
110
106
4
36
-40 to +85
SOIC-8
XR2008
2
No
Out
1
75
35
50
0.505
15
12
5
80
60
2.5
5.5
-40 to +125
MSOP-8, SOIC-8
XR2009
2
No
Out
1
35
18
27
0.208
8.5
21
5
62
65
2.5
5.5
-40 to +125
MSOP-8, SOIC-8
XR8052
2
No
Out
1
175
65
190
2.6
100
16
7
92
75
2.7
12.6
-40 to +125
MSOP-8, SOIC-8
CLC3601
3
No
No
1
550
335
1,500
5.2
52
7
7.5
NS
80
8
12
-40 to +85
SOIC-14
CLC4000
4
No
No
1
510
250
210
7
200
4.5
6
76
82
5
13
-40 to +85
TSSOP-14, SOIC-14
CLC4007
4
No
Out
1
250
85
220
2.6
100
16
7
92
75
2.7
12.6
-40 to +125
TSSOP-14, SOIC-14
CLC4011
4
No
In / Out
1
4.3
3
9
0.16
35
22
8
80
71
2.5
5.5
-40 to +125
TSSOP-14, SOIC-14
CLC4050
4
No
No
1
0.33
0.3
0.285
0.65
40
40
5
100
76.5
3
36
-40 to +85
SOIC-14
CLC4601
4
No
No
1
550
335
1,500
5.2
52
7
7.5
NS
80
8
12
-40 to +85
SOIC-14
XR8054
4
No
Out
1
175
65
190
2.6
100
16
7
92
75
2.7
12.6
-40 to +125
TSSOP-14, SOIC-14
17
HIGH PERFORMANCE ANALOG → Legacy Products Selector Guide
Video Encoders, Decoders, Filters, Digitizers, etc.
18
Name
Description
TMC2011
Variable-Length Shift Register
TMC2111
Variable-Length Shift Register
TMC22091
Digital Video Encoders/Layering Engine
TMC22051
Multistandard Digital Video Decoder
TMC22191
Digital Video Encoders/Layering Engine
TMC2242
Digital Half-Band Interpolating/Decimating Filter
TMC2246
Image Filter
TMC2249
Digital Mixer
TMC2250
Matrix Multiplier
TMC2330
16 x 16-bit, 40MOPS Coordinate Transformer
TMC2490A
Multistandard Digital Video Encoder
TMC2491A
Digital Video Encoder with Macrovision™ Copy Protection
TMC22153
Multistandard Digital Video Decoder
BUY NOW → Global Af filiates
Arrow Electronics
www.arrow.com
Future Electronics
www.futureelectronics.com
Primary Logo
Secondary Stacked Logo
Digi-Key Corporation
www.digikey.com
Mouser Electronics
www.mouser.com/exar
Farnell element14
Newark element14
www.farnell.com
www.newark.com
www.element14.com
Bescom Global Electronics Pte Ltd. (APAC)
www.bescomm.com
RS Components
www.rsprc.com
Chip One Stop, Inc. (APAC)
www.chip1stop.com
LSD Science & Technology Co., Ltd. (APAC)
www.lierda.com
DST Electronic Group Co., Ltd. (APAC)
www.szdst.com.cn
Nijkerk Electronics B.V. (EMEA)
www.nijkerk-ne.com
Eltech (EMEA)
www.eltech.spb.ru
Prohubs International Corp. (APAC)
www.prohubs.com.tw
ZLG MCU Development Co., Ltd. (APAC)
www.zlgmcu.com
RTI Holdings Ltd. (APAC)
www.rti.com.hk
HB Corporation (APAC)
www.hbcorp.co.kr
Serial Microelectronics Korea Limited (APAC)
www.serialsystem.com
Internix Inc (APAC)
www.internix.co.jp
Setron GmbH (EMEA)
www.setron.de
Jetronic Technology Limited (APAC)
www.jetronic.com
Solid State Supplies (EMEA)
www.sssplc.com
JSC Gamma (EMEA)
www.icgamma.ru
Teampo Technology Co Ltd. (APAC)
www.teampo.com
KH Distributors (EMEA)
www.khd.co.za
WT Microelectronics Co., Ltd. (APAC)
www.wtmec.com
KTL Corporation (APAC)
www.ktl-corp.co.jp
Wuhan P&S Information Technology Co., Ltd. (APAC)
www.icbase.com
19
LIFE SUPPORT POLICY
EXAR Corporation does not recommend the use of its products in life support applications where the failure or malfunction of the
product can reasonably be expected to cause failure of a life support system or to significantly affect its safety or effectiveness. Life
support devices or systems are devices or systems which are intended for surgical implant into the body, or support or sustain life, and
where failure to perform when properly used in accordance with instructions for use provided in the labeling can be reasonably
expected to result in death or significant injury to the user. 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 and indemnity of EXAR Corporation is adequately protected under the circumstances.
PATENT INFORMATION
Exar Corporation’s products are protected under one or more of the following U.S. Patents:
3,306,444, 3,883,889, 4,042,953, 4,152,823, 4,247,951, 4,265,935, 4,318,118, 4,566,914, 4,617,535, 4,771,188, 4,789,838, 4,851,893,
4,866,397, 4,949,150, 4,975,386, 5,007,081, 5,011,784, 5,016,080, 5,023,194, 5,068,702, 5,097,309, 5,148,395, 5,152,842, 5,190,884,
5,229,664, 5,247,581, 5,248,624, 5,283,579, 5,294,927, 5,298,814, 5,315,264, 5,319,704, 5,325,045, 5,325,069, 5,357,379, 5,371,419,
5,387,877, 5,389,829, 5,440,254, 5,444,242, 5,446,412, 5,452,711, 5,502,746, 5,506,532, 5,512,816, 5,552,732, 5,557,481, 5,570,049,
5,572,212, 5,587,684, 5,592,167, 5,604,452, 5,625,281, 5,648,972, 5,650,747, 5,689,259, 5,694,031, 5,698,970, 5,703,524, 5,708,536,
5,790,393, 5,796,361, 5,649,122, 5,801,587, 5,801,593, 5,805,005, 5,818,271, 5,528,330, 5,844,431, 5,852,360, 5,864,257, 5,870,002,
5,880,690, 5,880,632, 5,910,739, 5,914,627, 5,914,632, 5,923,203, 5,923,206, 5,929,799, 5,933,056, 5,949,787, 5,959,494, 6,031,389,
6,121,805, 6,121,837, 6,127,956, 6,300,820, 6,311,246, 6,313,671, 6,313,672, 6,323,703, 6,323,820, 6,326,820, 6,333,651, 6,340,944,
6,350,979, 6,351,165, 6,359,484, 6,404,927, 6,424,197, 6,424,510, 6,452,248, 6,452,425, 6,462,695, 6,501,320, 6,747,503, 6,754,839,
6,774,942, 6,798,857, 6,865,626, 6,947,999, 9,952,240, 6,960,942, 6,695,606, 7,000,158, 7,012,794, 7,038,720, 7,057,241
THERE ARE OTHER U.S. AND FOREIGN PATENTS PENDING.
E X A R C O R P O R AT I O N
REPRODUCTION, IN PART OR WHOLE, WITHOUT THE PRIOR WRITTEN CONSENT OF EXAR CORPORATION IS PROHIBITED.
48760 Kato Road
Fremont, CA 94538
U.S.A.
X R H PA B R O -1014
www.exar.com
E X A R I S A T R A D E M A R K O F E X A R C O R P O R AT I O N . A L L OT H E R T R A D E M A R K S A N D R E G I S T E R E D T R A D E M A R K S A R E
PROPERT Y OF THEIR RESPECTIVE OWNERS.
© 2 014 E X A R C O R P O R AT I O N
T. +1.510.668.7000
F. +1.510.668.7001