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ZL50022QCG1 参数 Datasheet PDF下载

ZL50022QCG1图片预览
型号: ZL50022QCG1
PDF下载: 下载PDF文件 查看货源
内容描述: 增强型4K的数字开关与地层4E DPLL [Enhanced 4 K Digital Switch with Stratum 4E DPLL]
分类和应用: 开关电信集成电路电信转换电路电信电路
文件页数/大小: 121 页 / 931 K
品牌: ZARLINK [ ZARLINK SEMICONDUCTOR INC ]
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ZL50022  
Data Sheet  
There are two slave modes for this device:  
The first is the Divided Slave mode. In this mode, output streams are clocked by input CKi. Therefore the output  
streams have exactly the same jitter as the input streams. The output data rate can be the same as or lower than  
the input data rate, but the output data rate cannot be higher than what CKi can drive. For example, if CKi is  
4.096 MHz, the output data rate cannot be higher than 2.048 Mbps. For the Divided Slave mode, the core master  
clock can be either 98.304 MHz, which is multiplied from CKi, or 100 MHz, which is multiplied from a 20 MHz  
oscillator. The Divided Slave mode with 98.304 MHz core master clock is called Divided Slave with CKi mode, and  
the mode with 100 MHz core master clock is called Divided Slave with OSC mode.  
The second slave mode is called Multiplied Slave mode. In this mode, CKi is used to generate a 16.384 MHz clock  
internally, and output streams are driven by this 16.384 MHz clock. In Multiplied Slave mode, the data rate of output  
streams can be any rate, but output jitter may not be exactly the same as input jitter.  
A Motorola or Intel compatible non-multiplexed microprocessor port allows users to program the device to operate  
in various modes under different switching configurations. Users can use the microprocessor port to perform  
internal register and memory read and write operations. The microprocessor port has a 16-bit data bus, a 14-bit  
address bus and six control signals (MOT_INTEL, CS, DS_RD, R/W_WR, IRQ and DTA_RDY).  
The device supports the mandatory requirements of the IEEE-1149.1 (JTAG) standard via the test port.  
4.0 Data Rates and Timing  
The ZL50022 has 32 serial data inputs and 32 serial data outputs. Each stream can be individually programmed to  
operate at 2.048 Mbps, 4.096 Mbps, 8.192 Mbps or 16.384 Mbps. Depending on the data rate there will be 32  
channels, 64 channels, 128 channels or 256 channels, respectively, during a 125 µs frame.  
The output streams can be programmed to operate as bi-directional streams. The output streams are divided into  
two groups to be programmed into bi-directional mode. By setting BDL (bit 6) in the Internal Mode Selection (IMS)  
register, input streams 0 - 15 (STi0 - 15) are internally tied low, and output streams 0 - 15 (STio0 - 15) are set to  
operate in a bi-directional mode. Similarly, when BDH (bit 7) in the Internal Mode Selection (IMS) register is set,  
input streams 16 - 31 (STi16 - 31) are internally tied low, and output streams 16 - 31 (STio16 - 31) are set to operate  
in bi-directional mode. The groups do not have to be set into the same mode. Therefore it is possible to have half of  
the streams operating in bi-directional mode while the other half is operating in normal input/output mode.  
The input data rate is set on a per-stream basis by programming STIN[n]DR3 - 0 (bits 3 - 0) in the Stream Input  
Control Register 0 - 31 (SICR0 - 31). The output data rate is set on a per-stream basis by programming STO[n]DR3  
- 0 (bits 3 - 0) in the Stream Output Control Register 0 - 31 (SOCR0 - 31). The output data rates do not have to  
match or follow the input data rates.The maximum number of channels switched is limited to 4096 channels. If all  
32 input streams were operating at 16.384 Mbps (256 channels per stream), this would result in 8192 channels.  
Memory limitations prevent the device from operating at this capacity. A maximum capacity of 4096 channels will  
occur if half of the total streams are operating at 16.384 Mbps or all streams are operating at 8.192 Mbps. With all  
streams operating at 4.096 Mbps, the switching capacity is reduced to 2048 channels. And with all streams  
operating at 2.048 Mbps, the capacity will be further reduced to 1024 channels. However, as each stream can be  
programmed to a different data rate, any combination of data rates can be achieved, as long as the total channel  
count does not exceed 4096 channels. It should be noted that only full stream can be programmed for use. The  
device does not allow fractional streams.  
4.1 External High Impedance Control, STOHZ0 - 15  
There are 16 external high impedance control signals, STOHZ0 - 15, that are used to control the external drivers for  
per-channel high impedance operations. Only the first sixteen ST-BUS/GCI-Bus (STio0 - 15) outputs are provided  
with corresponding STOHZ signals. The STOHZ outputs deliver the appropriate number of control timeslot  
channels based on the output stream data rate. Each control timeslot lasts for one channel time. When the ODE pin  
is high and the OSB (bit 2) of the Control Register (CR) is also high, STOHZ0 - 15 are enabled. When the ODE pin,  
OSB (bit 2) of the Control Register (CR) or the RESET pin is low, STOHZ0 - 15 are driven high, together with all the  
ST-BUS/GCI-Bus outputs being tristated. Under normal operation, the corresponding STOHZ outputs of any  
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Zarlink Semiconductor Inc.  
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