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參數(shù)資料

型號(hào)：	PDSP16515AA0GC
廠商：	Mitel Networks Corporation
英文描述：	Stand Alone FFT Processor
中文描述：	攻殼機(jī)動(dòng)隊(duì)FFT處理器
文件頁(yè)數(shù)：	9/27頁(yè)
文件大?。?/td>	289K
代理商：	PDSP16515AA0GC

PDSP16515A

The active going LFLG edge does not normally have any

system significance, but in the block overlapping modes the

in-active going edge will occur when 50% or 75% of the data

has been loaded. By driving the INEN input on one device with

the LFLG output from a previous device, this edge can be used

to partition data between several devices in a multiple device

system. It can also be used to provide an address marker for

a user defined input buffer, when executing 1024 point

transforms with a single device. It is not needed, however,

when the input buffer is provided by the PDSP16540.

Dumping Data

Data output is controlled by an output strobe [DOS], a dump

enable signal [DEN], and a Data Available signal [DAV]. The

DAV signal is used to indicate that the internal output buffer

contains transformed data, and the DEN input is used to

control the outputting of that data. The output buffer within the

device is clocked by the DOS input, and must be primed with

a number of DOS strobes (see "user notes - stopping DOS")

once a transform is complete in order to transfer data to the

output pins. DAV will not go active until this priming has

occurred.

The state of the DEN input at the end of a transform is used to

control the transition of the active going edge of the DAV

output with respect to the DOS strobes. The latter are then

used to transfer data from the device to the next system

component. If the DEN input is tied low in a single device

system, the active going DAV transition will be internally

synchronised to the rising edge of a DOS clock. If DEN is not

tied low it must be guaranteed to be low at the end of the

internal transform operation for this synchronization to occur.

Since there is no external indication of this event, the user

must take care to only allow DEN to go high whilst DAV is

active, if this DAV synchronous mode is needed.

Synchronized Dav Operation

In the DAV synchronised mode the first rising edge of the DOS

clock, after DAV has gone active, must be used to transfer the

first transformed sample from the output pins to the next

system component. It should be noted that the output buffer

will have been primed before the active DAV transition, since

DOS must be a continuous clock, and there is then no delay

before the first output becomes valid. The DAV output can be

used as a clock enable for this next device, and transfers will

continue in normal sequential order until the required data has

been dumped. DAV will then go inactive in response to the last

DOS edge which was used to transfer data to the next device.

This mode of automatically dumping data when it is ready

finds applications in real time data flow systems, and detailed

timing is given in Table 2. It should be noted that the DOS input

MUST be continually present before DAV goes active. If this

is not the case the DAV output will not go active at the correct

time, and the internal output circuitry will not be primed. Once

DAV is active, however, it is possible for DOS to be irregular,

and DEN can be used to inhibit the action of the output strobe

as discussed previously. For the correct operation of the

device the user must ensure that DOS becomes continuous

and DEN remains low once DAV goes in-active.

Table 2. Output Timing with DEN tied low. ( Advanced Data )

DOS

DATA O/P

DAV

Scale Tag Value

O/P 1

O/P 2

S3:0

Characteristic

Output Enable Time

Output Disable Time

Data Delay Time ( 30 pf load )

Data Hold Time

DAV active Delay Time ( 30 pf load )

DAV in active Delay Time ( 30 pf load )

Symbol

Min

Max

Units

相關(guān)PDF資料	PDF描述
PDSP16515AC0AC	Stand Alone FFT Processor
PDSP16515AC0GC	Stand Alone FFT Processor
PDSP16515A	Stand Alone FFT Processor
PDSP16515MA	Stand Alone FFT Processor
PDSP16515AB0AC	Stand Alone FFT Processor

相關(guān)代理商/技術(shù)參數(shù)	參數(shù)描述
PDSP16515AA0GCPR	制造商:未知廠家制造商全稱:未知廠家功能描述:Fast Fourier Transform Processor
PDSP16515AB0AC	制造商:MITEL 制造商全稱:Mitel Networks Corporation 功能描述:Stand Alone FFT Processor
PDSP16515AB0ACBR	制造商:未知廠家制造商全稱:未知廠家功能描述:Fast Fourier Transform Processor
PDSP16515AB0GC	制造商:MITEL 制造商全稱:Mitel Networks Corporation 功能描述:Stand Alone FFT Processor
PDSP16515AB0GCPR	制造商:未知廠家制造商全稱:未知廠家功能描述:Fast Fourier Transform Processor

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