PDSP16488AMA Mitel Networks Corporation, PDSP16488AMA Datasheet - Page 11

PDSP16488AMA

Manufacturer Part Number

PDSP16488AMA

Description

Single Chip 2D Convolver with Integral Line Delays

Manufacturer

Mitel Networks Corporation

Datasheet

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LOADING REGISTERS FROM A HOST CPU

master device are connected to the host bus to provide

address and data for the internal registers. In a multiple device

system the remaining devices receive addresses and data

which have been passed through the expansion connection

between earlier devices in the cascade chain. Each device

needs an individual chip enable plus a global data strobe,

read/write line, and

loaded in any sequence once the global

been produced by the host. The latter would normally be

produced from an address decode encompassing all the

necessary device addresses.

strobe must be passed down the expansion chain through the

is used as a host REPLY signal, and indicates that the last

device has received data after the propogation delay of

previous devices.

MASTER device from the host data strobe, and will appear on

the

number of devices without knowing the propogation delay

through each device. The timing information for this mode of

operation is given in Figure 8.

internal registers. The required device is selected using chip

enable with the R/

device systems output the data read on X7:0, but in multiple

device systems data is read from the D7:0 outputs on the final

device in the chain. These must be connected back to the host

data bus through three-state drivers. When earlier devices in

the chain are addressed, the register contents are transferred

through the expansion connections down to the final device.

In the self timed configuration the data will be valid when the

connections are not necessary, and the host data strobe for a

write operation must be wide enough to allow for the worst

case propogation delay through all the devices ( TDEL ). If the

data or address from the host does not meet the set up time

given in Fugure 8, the width of the data strobe can be simply

extended to compensate for the additional delay. When read-

ing data the access time required is: TACC + ( N - 1 ).TDEL

using the maximum times obtained from Figure 8.

HOST CONTROL LINES

X7:0

X14:8

X15

The expansion data inputs [X14:0] on a single or

Registers are individually addressed and can be

If a self timed system is to be implemented, a timing

The host can also read the data contained in the

If the

goes active, as shown in Figure 8.

output. This feature allows the user to cascade any

connections. The

8 bit data bus. In a single device system this bus is

bi-directional; in other configurations it is an input.

Only a SINGLE or MASTER device is connected

directly to the host. Other devices receive data from

the output of the previous device in the chain.

7 bit address bus which is used to identify one of

the 73 internal registers. Connected in the same

manner as X7:0.

X15 must be open circuit on the MASTER device

The timing strobe is produced in the

line indicating a read operation. Single

signal is not to be used , the

signal from the host.

output from the final device

signal has

LOADING REGISTERS FROM AN EPROM

assume the role of a host computer. If more than one device

is present, this must be the first component in the chain,

which must have its

ers which allow the registers in up to 16 cascaded devices to

be specified. It also generates the

strobe on the pins which were previously inputs.

outputs must be connected to the other devices in the system,

which still use them as inputs. The R/W input should be tied

low on all devices.

feedback connection from the PC1 output on the last device

to the

must be made between devices in a multiple device system;

in a single device system the connection is made internally.

an internal oscillator and does not require the pixel clock to be

present during the programming sequence. Any pixel clock re-

synchronization in a real time system will thus not effect the

coefficient load operation. The relevent EPROM timing infor-

mation is shown in figure 9.

gone from active to in-active, and will be indicated by the

tions will be loaded into the internal registers using addresses

corresponding to those in Table 3. Within a particular page of

128 EPROM locations, the first nine locations supply control

middle 55 locations are not used. If the window size is 8 x 4,

the top 32 locations will also contain redundant data, and if

the size is 4 x 4 the top 48 will be redundant.

In the EPROM supported mode, one device has to

The MASTER device contains internal address count-

The width of the data strobe is determined by the

The available EPROM access time is determined by

The load procedure will commence after reset has

output going active. The data from 73 EPROM loca-

An input from the previous PC1 output in a multiple

device chain. Not needed on a SINGLE device or

if the self timed feature is not used.

Reply to the host from a SINGLE device or from the

last device in a cascade chain. It indicates that the

write strobe can be terminated. Connected to PC0

input of the next device at intermediate points in the

chain if the self timed feature is used.

Read/Not Write line from the host CPU which is

connected to all devices in the system.

An active low enable which is normally produced

from a global address decode for the particular

device. This must encompass all internal register

addresses.

An active low host data strobe which is connected

to all devices. in the system.

An active low global signal, produced by the host,

which is connected to all devices in the system.

Together with a unique chip enable for every de-

vice, it allows the internal registers to be updated

or examined by the host. PROG and CE should be

tied together in a single device system.

input on the MASTER. The

pin tied low.

PDSP16488A MA

signal and a data

connections

These

PDSP16488AMA Mitel Networks Corporation, PDSP16488AMA Datasheet - Page 11

PDSP16488AMA

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