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For
more info on the ADS5500
14-bit 125-MSPS ADC
Click
Here |
For
more info on other
products that work with the
ADS5500 Family
Click
Here
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| New
Additions to ADS5500 Product Family |
 |
Designed for applications demanding the highest speed and
highest dynamic range, the ADS5500 family offers designers
a range of resolution, speed and performance options tailored
for individual application requirerments. To enhance total
system design, TI offers a portfolio of High-Performance Analog
and DSP solutions complementary to the ADS5500 family.
|
Device
|
Bits |
MSPS |
SNR
(dB)
|
SFDR
(dB) |
Power
(mW) |
|
14 |
210 |
73.3 |
85 |
1375 |
|
14 |
190 |
73.2 |
87 |
1130 |
|
14 |
170 |
73.5 |
85
|
1220 |
|
14 |
125
|
70.5
|
82
|
780 |
|
14 |
105 |
71
|
85
|
710 |
|
14 |
80 |
72 |
82 |
670 |
|
14 |
65 |
74 |
84 |
725 |
|
12 |
210 |
70.5 |
84 |
1230 |
|
12 |
170 |
70.5 |
84 |
1100 |
|
12 |
125 |
69 |
82 |
740 |
|
12 |
105 |
69 |
85 |
700 |
|
12 |
80 |
70 |
82
|
660 |
Performance
at 100 MHz input frequency, typical values. |
|
|
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| • |
Single
12- and 14- bit 80, 105, 125, 170, 190
and 210 MSPS and dual 14-bit 65 MSPS
ADC’s |
| • |
Very
low power dissipation ranging from 660
mW – 1375 mW |
| • |
Single
supply: 3.3 V |
| • |
Analog input FSR: 2.3 Vp-p |
| • |
Data
ready output clock |
| • |
Internal
reference |
|
|
| • |
Ranging
from 73.5 - 69 dB SNR at 100 MHz IF
|
| • |
Ranging from 87 - 82 dB SFDR at 100
MHz IF |
| • |
800
MHz input bandwidth |
| • |
Supports
high input frequencies for under sampling
applications |
|
|
|
 Get
started today with samples and EVMs!
The
ADS5500 family evaluation modules
(EVMs) provide easy-to-use development
tools to evaluate product performance
and ensure that your application needs
are met. Order samples and EVMs through
the product folders.
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| |
| Communications |
| |
Wireless
Infrastructure |
• |
Improves receiver performance |
| |
Software
Defined Radios |
• |
Handles
more voice channels |
| |
Broadband
Wireless |
• |
Reduces
number of signal chains |
| |
|
• |
Lowers
system complexity and cost |
| Medical |
| |
MRI |
• |
Increases
image quality |
| |
Cellular
Diagnostics |
• |
Improves
analytical accuracy |
| |
Laser
Procedures |
• |
Allows
more precise surgical control |
Imaging |
| |
HD
Cameras |
• |
Enables
higher quality imaging |
| |
High-end
Scanners |
• |
Reduces
scan time |
| |
Video
Inspection |
• |
Lowers
system complexity and cost |
Industrial, Test and Measurement |
| |
ATE |
• |
Extends
signal analysis capability |
| |
Waveform
Analysis |
• |
Simplifies
analog input circuitry |
| |
Non-destructive
Testing |
• |
Enables
lower power high-performance
portable applications |
And many other high-performance applications... |
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|
TI
Solution
|
Device |
Device
Characteristics |
| Operational
Amplifiers |
OPA695
THS9000
|
Ultra-wideband
(1.4 GHz), current-feedback, 2500 V/µs slew
rate (G=+2)
50 to 350 MHz cascadeable op amp optimized for high
IF frequencies |
| Digital-to-Analog
Converter |
DAC5686
|
Dual-channel,
16-bit, 500 MSPS with selectable 2x-16x interpolation
CommsDAC™ |
| Digital
Up/Down Converter |
GC5016 |
Wideband, quad, channels independently configurable,
low power |
| Clock
Distribution Circuit |
CDCM7005 |
Low-phase
noise, low-skew clock synthesizer and jitter cleaner,
3.3 V supply |
| Digital
Signal Processors |
TMS320C64x™
TMS320C55x™
TMS320C67x™
|
16-bit,
fixed-point DSPs, up to 1 GHz clock rates and 8
GigaMACs of performance, with the industry’s
best power consumption benchmarks
32-bit DSPs with up to 1 GFLOPS of floating-point
processing performance |
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