Gehäuseinformationen
Gehäuse | Pins CFP (W) | 16 |
Betriebstemperaturbereich (°C) -55 to 125 |
Gehäusemenge | Träger 25 | TUBE |
Merkmale von SN55LVCP22-SP
- High Speed (>1000 Mbps) Upgrade for DS90CP22 2x2 LVDS
Crosspoint Switch - Low-Jitter Fully Differential Data Path
- 50 ps (Typ), of Peak-to-Peak Jitter With PRBS = 223–1 Pattern
- Less Than 200 mW (Typ), 300 mW (Max) Total Power Dissipation
- Output (Channel-to-Channel) Skew Is 80 ps (Typ)
- Configurable as 2:1 Mux, 1:2 Demux, Repeater or 1:2 Signal Splitter
- Inputs Accept LVDS, LVPECL, and CML Signals
- Fast Switch Time of 1.7 ns (Typ)
- Fast Propagation Delay of 0.65 ns (Typ)
- Available in 16 pin CFP Package
- Inter-Operates With TIA/EIA-644-A LVDS Standard
- Military Temperature Range: –55°C to 125°C
Beschreibung von SN55LVCP22-SP
The SN55LVCP22 is a 2×2 crosspoint switch providing greater than 1000 Mbps operation for each path. The dual channels incorporate wide common-mode (0 V to 4 V) receivers, allowing for the receipt of LVDS, LVPECL, and CML signals. The dual outputs are LVDS drivers to provide low-power, low-EMI, high-speed operation. The SN55LVCP22 provides a single device supporting 2:2 buffering (repeating), 1:2 splitting, 2:1 multiplexing, 2×2 switching, and LVPECL/CML to LVDS level translation on each channel. The flexible operation of the SN55LVCP22 provides a single device to support the redundant serial bus transmission needs (working and protection switching cards) of fault-tolerant switch systems found in optical networking, wireless infrastructure, and data communications systems. TI offers additional gigabit repeater/ translator and crosspoint products in the SN65LVDS100 and SN65LVDS122.
The SN55LVCP22 uses a fully differential data path to ensure low-noise generation, fast switching times, low pulse width distortion, and low jitter. Output channel-to- channel skew is 80 ps (typ) to ensure accurate alignment of outputs in all applications. Both SOIC and TSSOP package options are available to allow easy upgrade for existing solutions, and board area savings where space is critical.