DS90LV028ATM NOPB Industrial-Grade LVDS Line Driver – Low EMI, Stable Signal Transmission, 3.3V Operation, Suitable for Test Equipment, Embedded Systems & High-Speed Data Links
The DS90LV028ATM NOPB is a high-speed Low-Voltage Differential Signaling (LVDS) receiver developed by Texas Instruments (TI), designed to complement LVDS transmitters in high-bandwidth digital systems. It converts serial LVDS input signals into parallel digital data, offering low electromagnetic interference (EMI), high noise immunity, and low power consumption for reliable long-distance data reception.
- Serial-to-Parallel Conversion: Accepts serial LVDS input (RX+/-) and converts it to 10-bit parallel output data (D0-D9)
- High-Speed Data Reception: Supports maximum serial data rate of 3.125 Gbps
- Clock Recovery & Synchronization: Built-in clock recovery circuit ensures precise alignment
- LVDS Input Advantage: High noise rejection (common-mode rejection ratio >40 dB) for reliable operation in noisy environments
Operating voltage (VCC): 3.3 V ±5% (typical 3.3 V)
- Static power (no data reception): Typical 8 mW
- Dynamic power (at 3.125 Gbps): Typical 75 mW per channel
Parameter | Value |
---|---|
Differential input voltage range (VID) | ±100 mV to ±500 mV |
Minimum differential input sensitivity | 100 mV |
Common-mode input voltage (VCM) | 0.5 V to 2.0 V |
- Human Body Model (HBM): 2 kV
- Machine Model (MM): 200 V
- Package type: TSSOP-20 (Thin Shrink Small Outline Package, 20 pins)
- Package dimensions: 6.40 mm × 4.40 mm × 0.92 mm (length × width × height)
- Lead-free (Pb-free) solder, RoHS compliant
Commercial temperature range: 0 °C to 70 °C
- Enterprise Storage: SAS-3 or SATA-III controllers
- Industrial Automation: Machine vision systems and motion control modules
- Consumer Electronics: 4K/8K video display devices and AV receivers
- Test & Measurement: Data loggers and oscilloscopes
The DS90LV028ATM NOPB excels as a high-speed, low-noise LVDS receiver, offering seamless compatibility with TI's LVDS transmitters. Its compact size, low power consumption, and robust performance make it ideal for industrial, consumer, and enterprise applications requiring reliable serial communication links.