vsc834 Vitesse Semiconductor Corp, vsc834 Datasheet - Page 3

vsc834

Manufacturer Part Number

vsc834

Description

2.5gb/s 17 X 17 Crosspoint Switch With Input Signal Activity Isa Monitoring

Manufacturer

Vitesse Semiconductor Corp

Datasheet

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Datasheet

VSC834

G52247-0, Rev 4.2

02/09/01

Programming Interface

program memory array. The program memory array is buffered to allow multiple programming instructions to

be loaded simultaneously with the CONFIG pin. Parallel programing can be clocked at up to a 50MHz rate.

by ADDR[5:0], specifies which output channel is to be programmed. The input address, denoted by DATA[4:0],

specifies which input port the switch slice should connect to. The format of the program data is simple binary,

where the binary value maps directly to the switch slice position and/or input port number. For example:

ADDR[5:0] (000100) / DATA[4:0] (00110) would direct output channel Y4 to connect to input channel A6. The

programming state may be verified (read back) by applying the address of the desired output and asserting

RDB. The programming state is unknown at power-on. Additional address space is provided for access to the

monitor registers (See Table 2). The microprocessor interface consists of the following signals. Levels are TTL

(see Table 6).

Table 1: Signal Table

Loss of Activity (LOA) Monitoring

The state of a monitor (whether or not it has been toggled by an input transition) can be observed by applying

the address (See Table 2) of the monitor register corresponding to the signal of interest and asserting RDB. Each

monitor register is four bits in length, covering the state of four inputs or outputs. There is one extra one-bit

monitor for each of the 17

ically on the rising edge of MONCLK, whereupon the activity monitor is clered until more activity is detected.

MONCLK

CONFIG

D[5:0]

A[5:0]

The switch core is programmed through a parallel interface circuit that allows random reads or writes to the

The program data is composed of two parts: output address and input address. The output address, denoted

WRB

INTB

The LOA function consists of an activity monitor on each input channel, connected directly to the pads.

ALE

RDB

CSB

I/O

Bidirectional data bus to transfer data to/from internal program registers

Address bus to select internal program registers for read-write operations

Address Latch Enable: for use with multiplexed address/data buses. Latches the address bus internally

when low.

Chip Select (Active Low): assert this pin whenever the part is being read or programmed.

Write (Active Low): program data will be transferred to the first level internal registers on the rising

edge of this signal (when CSB is also low).

Read (Active Low): program data from the internal program or monitor registers will be read out on the

data bus when this signal goes low (with CSB also low).

Interrupt (Active Low): this signal is asserted when an LOA condition is found

Configure (Active High): assert this signal to transfer queued program information from the first-level

internal registers to the second-level registers, making the programming take effect. This signal may be

tied high to leave the second-level registers transparent so all programming will take effect

immediately. CSB must be active (low) when CONFIG is asserted. CONFIG may be tied to a high-

order bit of the address bus

Monitor states are transferred to monitor registers on the rising edge of this signal. MONCLK is not

expected to exceed 3MHz.

Tel: (800) VITESSE • FAX: (805) 987-5896 • Email: prodinfo@vitesse.com

input and 17

VITESSE

SEMICONDUCTOR CORPORATION

output. The state of each monitor is transferred to the register period-

Internet: www.vitesse.com

Description

with Input Signal Activity (ISA) Monitoring

2.5Gb/s 17x17 Crosspoint Switch

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vsc834 Vitesse Semiconductor Corp, vsc834 Datasheet - Page 3

vsc834

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