Analog Devices Inc. LTC2341-16/-18 Dual Differential SoftSpan™ ADCs
Analog Devices Inc. LTC2341-16 / LTC2341-18 16- and 18-bit SoftSpan™ Analog-to-Digital Converters are 666ksps, 2-channel simultaneous sampling successive approximation register (SAR) ADCs. The ADCs offer differential, wide common-mode range inputs. Both channels of the LTC234 SoftSpan ADCs can be independently configured on a conversion-by-conversion basis to accept ±4.096V, 0V to 4.096V, ±2.048V, or 0V to 2.048V signals. Designers can disable one channel of the ADC to increase throughput on the other channel.
The wide input common-mode range and 105dB CMRR of the analog inputs enable the LTC2341-16 and LTC2341-18 to directly digitize a variety of signals. This process simplifies signal chain design. In addition to input signal flexibility, these ADCs offer ±4LSB (18-bit) or ±1.25LSB (16-bit) INL, no missing codes, and 95db (18-bit) or 93.4dB (16-bit) SNR. Operating from a low 5V voltage supply, the Analog Devices Inc. LTC2341-16/-18 ADCs are ideal for use in a variety of applications requiring a wide dynamic range.
Features
- 666ksps per channel throughput
- Two simultaneous sampling channels
- ±1.25LSB (16-bit) INL, ±4LSB INL (18-bit)
- Guaranteed 16-bit/18-bit, no missing codes
- Differential, wide common-mode range inputs
- Per-Channel SoftSpan Input Ranges
- ±4.096V, 0V to 4.096V, ±2.048V, 0V to 2.048V
- ±5V, 0V to 5V, ±2.5V, 0V to 2.5V
- 93.4dB single-conversion SNR (16-bit); 95dB single-conversion SNR (18-bit)
- −114dB THD (typical) at fIN = 2kHz
- 105dB CMRR (typical) at fIN = 200Hz
- Rail-to-rail input overdrive tolerance
- Guaranteed operation to +125°C
- Integrated reference and buffer (4.096V)
- SPI CMOS (1.8V to 5V) and LVDS serial I/O
- Internal conversion clock, no cycle latency
- 74mW power dissipation (typical)
- 32-lead (5mm × 5mm) QFN package
Applications
- Programmable logic controllers
- Industrial process control
- Medical imaging
- High speed data acquisition
LTC2341-16 Typical Application
LTC2341-18 Typical Application
Additional Resources
Publicado: 2017-04-28
| Actualizado: 2022-03-11