パッケージ情報
パッケージ | ピン数 TSSOP (PW) | 16 |
動作温度範囲 (℃) -40 to 85 |
パッケージ数量 | キャリア 2,000 | LARGE T&R |
SN65LVCP23 の特徴
- High Speed 2x2 LVPECL Crosspoint Switch
- LVDS Crosspoint Switch Available in SN65LVCP22
- 50 ps (Typ), of Peak-to-Peak Jitter With PRBS = 223- 1 Pattern
- Output (Channel-to-Channel) Skew Is 10 ps (Typ), 50 ps (Max)
- 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 0.75 ns (Typ)
- 16 Lead SOIC and TSSOP Packages
- Operating Temperature: -40°C to 85°C
- APPLICATIONS
- Gigabit Ethernet Redundant Transmission Paths
- Gigabit Interface Converters (GBICs)
- Fibre Channel Redundant Transmission Paths
- HDTV Video Routing
- Base Stations
- Protection Switching for Serial Backplanes
- Network Switches/Routers
- Optical Networking Line Cards/Switches
- Clock Distribution
SN65LVCP23 に関する概要
The SN65LVCP23 is a 2x2 LVPECL crosspoint switch. 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 LVPECL drivers to provide high-speed operation. The SN65LVCP23 provides a single device supporting 2:2 buffering (repeating), 1:2 splitting, 2:1 multiplexing, 2x2 switching, and LVDS/CML to LVPECL level translation on each channel. The flexible operation of the SN65LVCP23 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 an additional gigabit repeater/translator in the SN65LVDS101.
The SN65LVCP23 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 less than 10 ps (typ) and 50 ps (max) to ensure accurate alignment of outputs in all applications. Both SOIC and TSSOP package options are available.