Zhone Technologies IMACS Network Device User Manual
Page 52
Zhone Technologies, Inc.
IMACS Product Book, Version 4
March 2001
Page 48
EIA RS-530
High-speed 25 Position Interface for Data Terminal Equipment, Including Alternative 25
Position Connector.
EIA RS-366
Interface Between Data Terminal Equipment and Automatic Calling Equipment for Data
Communication
FCC Part 15
Subpart B
UL 1950
UL Standard for Safety of Information Technology Equipment
CE EN 500 81-1
Electromagnetic compatibility generic emission standard Part 1 Residential,
commercial and light industry
CE EN 500 82-1
Electromagnetic compatibility generic immunity standard Part 1 Residential,
commercial and light industry
CE EN 60 950/A2
Safety of information technology equipment including electrical business
equipment
BellCore GR-63-CORE
Network Equipment-Building System (NEBS) Requirements: Physical Protection
2. SRU Card
The 822060/822161 SRU Card allows synchronous or asynchronous connections of up to ten RS-232, low-speed
and medium-speed (300 bps to 38.4 kbps) data terminals to the integrated access system. Since an SRU port does
not require a complete 64Kbps time slot, the Sub-Rate card allows the multiplexing of a number of devices into a
single, subdivided time slot on a WAN card. SRU card ports can also be multiplexed with voice traffic on an
ADPCM engine. The 822060 accesses user buses A & B, and the 822161 SRU accesses user buses C & D. The
822061 SRU has equivalent functions as the 822060 with the exception of Idle Pattern changes. The 822460 SRU
has 4 RS-422 ports that support synchronous and/or asynchronous connections from 300 bps to 38.4 Kbps. The
Low Delay SRU provides 10 RS-232E ports that support synchronous and/or asynchronous V.14 operations. The
sub-rate multiplexing is performed by hardware instead of software.
Each RS-232 port can be independently programmed for synchronous (including HDLC) or asynchronous operation.
Synchronous operation is available at speeds of 2.4 Kbps up to 38.4 Kbps while for asynchronous the range is 300
bps up to 38.4 Kbps. Each synchronous port can receive timing from either the DTE device or the system clock. If
the DTE supplies the transmit clocking, it must be synchronized with the system clocking source. For each
asynchronous data port, the stop bits, data bits and parity are user configurable. The SRU incorporates a built-in
V.14 Async-to-sync converter to avoid over-sampling and consequently saves bandwidth. Asynchronous data
circuits are converted to synchronous mode by the SRU card prior to multiplexing onto a WAN aggregate.
Sub-rate data ports are multiplexed into industry standard DSO formats. The user may specify the format of the
DSO that the data port is assigned to. The choices are: DSO-A which allows only one data port to be mapped into
the DSO and DSO-B which allows multiple data ports from multiple SRU cards in the system to be mapped into the
same DSO time slot. If the DSO-B format is selected, then the user can specify the type of DSO-B format required
(b-5, b-10 and b-20) and the sub-rate position that the data port will occupy within the DSO-B frame.
In b-5 mode, the DSO is divided into five sub-rate positions, each of which are occupied by a data port operating at
9.6 Kbps, 4.8 Kbps, or 2.4 Kbps. Additionally, one or two 19.2 Kbps circuits are supported in b-5 mode. Each
would occupy two of the five sub-rate positions. Additionally, data circuits running at 28.8 Kbps or 38.4 Kbps are
supported in b-5 mode and will occupy three or four of the five available sub-rate positions. In b-10 mode, the DSO
is divided into ten sub-rate positions, each of which are occupied by a data port operation at 4.8 Kbps or 2.4 Kbps.
In b-20 mode, the DSO is divided into 20 sub-rate positions, each of which are occupied by a data port operating at
2.4 Kbps.
In the application shown in Figure 14, the IMACS with the SRU card (on the right hand side) can either send each
sub-rate on a separate DS0 (DSO-A format) or groom multiple sub-rate channels into a single DS0 (one of the DSO-
B formats).