DS26514G Maxim Integrated, DS26514G Datasheet - Page 39
DS26514G
Manufacturer Part Number
DS26514G
Description
Network Controller & Processor ICs
Manufacturer
Maxim Integrated
Datasheet
1.DS26514G.pdf
(305 pages)
Specifications of DS26514G
Part # Aliases
90-26514-G00
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9.8.1.7 Mapping E1 Channels onto a 1.544MHz Backplane
The user can use the RSCLKM bit in RIOCR.4 to enable the receive elastic store to operate with a 1.544MHz
backplane (24 channels / frame + F-bit). In this mode the user can choose which of the E1 time slots will be
ignored (not transmitted onto RSERn) by programming the Receive Blank Channel Select registers (RBCS1–4). A
logic 1 in the associated bit location will cause the elastic store to ignore the incoming E1 data for that channel.
Typically, the user will want to program eight channels to be ignored. The default (power-up) configuration will
ignore channels 25 to 32, so that the first 24 E1 channels are mapped into the 24 channels of the 1.544MHz
backplane. In this mode the F-bit location at RSERn is always set to 1.
For example, if the user wants to ignore E1 time slots 0 (channel 1) and TS 16 (channel 17), the RBCS registers
would be programmed as follows:
RBCS1
RBCS2
RBCS3
RBCS4
9.8.2 IBO Multiplexing
The DS26514 offers two methods of multiplexing data streams onto a high-speed backplane bus.
The default method multiplexes the data streams internally and then outputs them on one pin, e.g., RSER1. For
example, if the user wants to multiplex RSER[4:1] together to make a 8 MHz high-speed bus, the data stream will
be output on RSER1 only. The traditional method, external multiplexing of IBO operation, that allows the user to
gang signals together on the PCB is supported. RSERn and RSIGn will three-state at the appropriate times to allow
the ganging of these signals together. In a 16 MHz IBO bus, 8 channels are multiplexed. In this mode, the
DS26514 is assigned to channels 1-4 of the 8-channel bus. The DS26514 cannot assign its four datastreams to
other channels of the bus, e.g. channels 5-8 cannot be accessed or assigned.
multiplexing and well as external multiplexing methods.
The selection between external ganging and internal multiplexing is made via GTCR1.GIBO.
Note that in IBO mode, the channel block signals TCHBLKn and RCHBLKn are referenced to as TSYSCLKn and
RSYSCLKn.
Figure
only show channels 1-4.
Table 9-5. Registers Related to the IBO Multiplexer
Note: The addresses shown above are for Framer 1. Addresses for Framers 2 to 4 can be calculated using the following: Framer n = (Framer 1
address + (n - 1) x 200hex), where n = 2 to 4 for Framers 2 to 4.
19-5856; Rev 4; 5/11
Global Transceiver Control
Register 1 (GTCR1)
Global Framer Control Register 1
(GFCR1)
Receive Interleave Bus Operation
Control Register (RIBOC)
Transmit Interleave Bus
Operation Control Register
(TIBOC)
9-11,
= 01h
= 00h
= 01h
= FCh
REGISTER
Figure
9-12, and
Table 9-5
Figure 9-13
describes the pin function changes for each mode of the IBO multiplexer.
ADDRESSES
FRAMER 1
00F0h
00F1h
088h
188h
show the equivalent internal circuit for each IBO mode. These figures
This is a global register used to specify ganged operation
for the IBO.
This global register defines the number of devices per
bus and bus speed.
This register configures the per-port IBO enable and type
of interleaving (channel vs. frame).
This register configures the per-port IBO enable and type
of interleaving (channel vs. frame).
DS26514 4-Port T1/E1/J1 Transceiver
FUNCTION
This applies to the internal
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