參數(shù)資料
型號: MT9076
廠商: Mitel Networks Corporation
英文描述: T1/E1/J1 3.3V Single Chip Transceiver
中文描述: T1/E1/J1收發(fā)3.3V的單芯片收發(fā)器
文件頁數(shù): 44/160頁
文件大?。?/td> 416K
代理商: MT9076
MT9076
Preliminary Information
40
9.0
Slip Buffers
9.1
Slip Buffer in T1 Mode
In T1 mode, MT9076 contains two slip buffers, one on the transmit side, and one on the receive side. Both
sides may perform a controlled slip. The mechanisms that govern the slip function are a function of backplane
timing and the mapping between the ST-BUS channels and the DS1 channels. The slip mechanisms are
different for the transmit and receive slip buffers. The extracted 1.544 Mhz clock (Exclk) and the internally
generated transmit 1.544 Mhz clock are distinct. Slips on the transmit side are independent from slips on the
receive side. In IMA mode neither the transmit nor receive slip buffer is activated.
The transmit slip buffer has data written to it from the near end 2.048 Mb/s stream. The data is clocked out of
the buffer using signals derived from the transmit 1.544 Mhz clock. The transmit 1.544 Mhz clock is always
phase locked to the DSTi 2.048 Mb/s stream. If the system 4.096 Mhz clock (C4b) is internally generated (pin
BS/LS low), then it is hard locked to the 1.544 Mhz clock. No phase drift or wander can exist between the two
signals - therefore no slips will occur. The delay through the transmit elastic buffer is then fixed, and is a
function of the relative mapping between the DSTi channels and the DS1 timeslots. These delays vary with the
position of the channel in the frame. For example, DS1 timeslot 1 sits in the elastic buffer for approximately 1
usec and DS1 timeslot 24 sits in the elastic buffer for approximately 32 usec.
Figure 12 - Read and Write Pointers in the Transmit Slip Buffers
If the system 4.096 Mhz clock (C4b) is externally generated (pin BS/LS high), the transmit 1.544 Mhz clock is
phase locked to it, but the PLL is designed to filter jitter present in the C4b clock. As a result phase drift will
result between the two signals. The delay through the transmit elastic buffer will vary in accordance with the
input clock drift, as well as being a function of the relative mapping between the DSTi channels and the DS1
timeslots. If the read pointers approach the write pointers (to within approximately 1 usec) or the delay through
the transmit buffer exceeds 218 usecs a controlled slip will occur. The contents of a single frame of DS1 data
will be skipped or repeated; a maskable interrupt (masked by setting bit 1 - TxSLPI high in Interrupt Mask Word
Zero - page 1H, address 1bH) will be generated, and the status bit TSLIP (page 3H, address 17H) of MSB
Transmit Slip Buffer register will toggle. The direction of the slip is indicated by bit 6 of the same register
(TSLPD). The relative phase delay between the system frame boundary and the transmit elastic frame read
Write
Pointer
221 uS
4 uS
188 uS
62 uS
129 uS
512 Bit
Elastic
Store
92 uS
92 uS
Wander Tolerance
Read Pointer
Read Pointer
Read Pointer
Read Pointer
0 uS
Frame 0
Frame 1
Frame 0
Frame 1
Frame 0
Frame 1
Write Vectors
Read Vectors
Minimum Delay
Read Vectors - Maximum Delay
96 uS
相關PDF資料
PDF描述
MT9076AB T1/E1/J1 3.3V Single Chip Transceiver
MT9076 T1/E1/J1 3.3V Single Chip Transceiver(T1/E1/J1 3.3V 單片收發(fā)器)
MT9079 Advanced Controller for E1(先進的E1幀調(diào)節(jié)器和控制器)
MT9080B SMX - Switch Matrix Module(用于消費類轉換應用的開關矩陣模塊)
MT90810 Flexible MVIP(Multi-Vendor Integration Protocol) Interface Circuit(彈性MVIP接口電路)
相關代理商/技術參數(shù)
參數(shù)描述
MT9076AB 制造商:MITEL 制造商全稱:Mitel Networks Corporation 功能描述:T1/E1/J1 3.3V Single Chip Transceiver
MT9076AP 制造商:MITEL 制造商全稱:Mitel Networks Corporation 功能描述:T1/E1/J1 3.3V Single Chip Transceiver
MT9076B 制造商:ZARLINK 制造商全稱:Zarlink Semiconductor Inc 功能描述:T1/E1/J1 3.3 V Single Chip Transceiver
MT9076BB 制造商:Zarlink Semiconductor Inc 功能描述:FRAMER E1/J1/T1 3.3V 80LQFP - Trays
MT9076BB1 制造商:Zarlink Semiconductor Inc 功能描述:FRAMER E1/J1/T1 3.3V 80LQFP - Trays
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