參數(shù)資料
型號: VSC8117QP1
廠商: VITESSE SEMICONDUCTOR CORP
元件分類: 數(shù)字傳輸電路
英文描述: GIGATRUE 550 CAT6 PATCH 25 FT, SNAGLESS, BLUE
中文描述: TRANSCEIVER, PQFP64
封裝: 10 X 10 MM, HEAT SPREADER, PLASTIC, QFP-64
文件頁數(shù): 20/22頁
文件大?。?/td> 406K
代理商: VSC8117QP1
VITESSE
Data Sheet
VSC8117
ATM/SONET/SDH 622/155 Mb/s Transceiver Mux/Demux
with Integrated Clock Generation and Clock Recovery
Page 20
VITESSE
SEMICONDUCTOR CORPORATION
741 Calle Plano, Camarillo, CA 93012 805/388-3700 FAX: 805/987-5896
G52221-0, Rev 4.1
1/8/00
Application Notes
DC Coupling and Terminating High-speed PECL I/Os
The high speed signals on the VSC8117 (RXDATAIN, RXCLKIN, TXDATAOUT, REFCLKP, LOSPECL)
use 3.3/5V programmable PECL I/Os which can be direct coupled to either +3.3V PECL or +5V PECL signals
from the optics. These PECL levels are essentially ECL levels shifted positive by 3.3 volts or 5 volts. These
PECL I/Os are referenced to the V
DDP
supply (VDDP) and are terminated to ground. To program these I/Os for
either 3.3V or 5V interface, the V
DDP
pin (pins 4 and 10) is required to connect to 3.3V or 5V supplies accord-
ingly.
AC Coupling and Terminating High-speed PECL I/Os
If the optics modules provide ECL level interface, the high speed signals can be AC coupled to the
VSC8117 as well. The PECL receiver inputs of the VSC8117 are internally biased at VDD/2. Therefore, AC-
coupling to the VSC8117 inputs is accomplished by providing the pull-down resistor for the open-source PECL
output and an AC-coupling capacitor used to eliminate the DC component of the output signal. This capacitor
allows the PECL receivers of the VSC8117 to self-bias via its internal resistor divider network (see Figure 13).
The PECL output drivers are capable of sourcing current but not sinking it. To establish a LOW output
level, a pull-down resistor, traditionally connected to VDD-2.0V, is needed when the output FET is turned off.
Since VDD-2.0V is usually not present in the system, the resistor could be terminated to ground for conve-
nience. The VSC8117 output drivers should be either AC-coupled to the 5.0V PECL inputs of the optics mod-
ule, or translated (DC level shift). Appropriate biasing techniques for setting the DC-level of these inputs should
be employed.
The dc biasing and 50 ohm termination requirements can easily be integrated together using a thevenin
equivalent circuit as shown in Figure 12. The figure shows the appropriate termination values when interfacing
3.3V PECL to 5.0V PECL. This network provides the equivalent 50 ohm termination for the high speed I/Os
and also provides the required dc biasing for the receivers of the optics module. Table 17 contains recommended
values for each of the components.
TTL Input Structure
The TTL inputs of the VSC8117 are 3.3V TTL which can accept 5.0V TTL levels within a given set of tol-
erances (see Table 13). The input structure, shown in Figure 13, uses a current limiter to avoid overdriving the
input FETs.
Layout of the High Speed Signals
The routing of the High Speed signals should be done using good high speed design practices. This would
include using controlled impedance lines and keeping the distance between components to an absolute mini-
mum. PECL signals need 50-ohm traces, and TTL signals need 75-ohm traces. In addition, stubs should be kept
at a minimum as well as any routing discontinuities. This will help minimize reflections and ringing on the high
speed lines and insure the maximum eye opening. In addition the output pull down resistor should be placed as
close to the VSC8117 pin as possible while the AC-coupling capacitor and the biasing resistors should be
placed as close as possible to the optics input pin. The same is true on the receive circuit side. Using small out-
line components and minimum pad sizes also helps in reducing discontinuities.
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