PDSP16488AMA Mitel Networks Corporation, PDSP16488AMA Datasheet - Page 12

PDSP16488AMA

Manufacturer Part Number

PDSP16488AMA

Description

Single Chip 2D Convolver with Integral Line Delays

Manufacturer

Mitel Networks Corporation

Datasheet

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PDSP16488A MA

repeated for every device, and four additional address bits will

be generated on the CS3:0 pins. These address bits provide

the EPROM with a page address, with one page allocated to

each device in the system. Within each page only 73 locations

provide data for a convolver, the remainder are redundant as

in the single device system. The CS3:0 outputs must also be

decoded in order to provide individual chip enables for each

device. These can readily be derived by using an AS138 TTL

decoder. Bits in an internal control register determine the

number of times that the sequence is repeated.

after power-on, activating the

SINGLE device will instigate the load procedure. Additional

EPROM address bits supplied from the system will allow

different filter coefficients to be used.

X7:0

X14:8

X15

CS3: 0

EPROM CONTROL LINES

In a multiple device system the load sequence will be

If changes to the convolver operation are to be made

8 bit data from the EPROM to the MASTER or

SINGLE device. Otherwise data is received from

the previous device in the chain.

Lower 7 address bits to the EPROM from a MAS-

TER or SINGLE device. Otherwise an input from

the data outs of the previous device.

Tied to ground on a MASTER device to indicate the

EPROM mode.

Tied low on all devices.

which provides a data strobe for the other devices.

Four additional address bits for the EPROM which

are provided by the MASTER device. They allow

16 additional devices to be used and must be

externally decoded to provide chip enables.

An input on the MASTER device which is driven

from the

Used internally to terminate the write strobe. Con-

nected to previous

points in the chain. Not needed for a SINGLE

device.

An output connected to the

device in the chain. The last device feeds back to

the MASTER. Not needed for a SINGLE device.

An enable which is produced by decoding CS3:0

from the MASTER. It is not needed for a MASTER

or SINGLE device which will always use the

bottom block of addresses with internally gener-

ated write strobes. It can however be used on

these devices to initiate a new load procedure

after the initial power on sequence.

An active low going signal produced by

EPROM supported MASTER or SINGLE device.

An input to all other devices. It indicates that a

An output from a MASTER or SINGLE device

output of the last device in the chain.

input on the MASTER or

outputs at intermediate

input of the next

SYSTEM CONFIGURATION

the

Mode Control registers. In a MASTER or SINGLE device the

state of the X15 pin is used to define whether the system is

EPROM or host supported.

MODE CONTROL REGISTERS

BITS 3:0 These bits are 'don't care' when using a host

BITS 6:4 These bits define one of the five basic configura-

BIT

3:0

6:4

The device is configured using a combination of the state of

CODE

XXXX

000

001

010

011

101

power on, or as the result of CE as explained above.

It remains active until register 73 in the final device

has been loaded. Four bits in a control register

define the number of cascaded devices.

computer but to a MASTER device, in an EPROM

supported system, they define the number of inter-

connected chips. The EPROM must contain con-

tiguous 128 byte blocks for each of the devices in

the system and a 4 bit counter in the MASTER

device will sequence through up to 16 block reads.

An internal comparator in the MASTER causes the

loading of the internal registers to cease when the

value in the counter equals that contained in these

bits. The bits are redundant in a SINGLE device

which only uses one 128 byte block.

tions. The line delays will automatically be config-

ured to match the chosen window size and pixel

accuracy. The maximum clock rate that is avail-

able to the user reflects the internal mutiplication

factor.

and

FUNCTION

Number of extra devices from1-15

8 bit, 8x8 window, 10MHz max,

8x512 line delays.

16 bit, 8x4 window, 10MHz max,

4x512 line delays.

16 bit, 4x4 window,

4x512 line delays.

8 bit, 8x4 window,

4x1024 line delays.

8 bit, 4x4 window,

4x1024 line delays

Multiplexed exp. data

Non-mux. exp. data

pins, and the contents of the four

20MHz max,

40MHz max,

20MHz max,

PDSP16488AMA Mitel Networks Corporation, PDSP16488AMA Datasheet - Page 12

PDSP16488AMA

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