hsp50214 Intersil Corporation, hsp50214 Datasheet - Page 28

hsp50214

Manufacturer Part Number

hsp50214

Description

Programmable Downconverter

Manufacturer

Intersil Corporation

Datasheet

1.HSP50214.pdf (54 pages)

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Serial Direct Output Port Mode

The Serial Direct Output Port Mode offers the ability to construct

two serial output data streams, SEROUTA AND SEROUTB, from

16-bit I, Q, magnitude, phase, frequency, timing error, and AGC

level data words. The total number of data words (1 to 8) for serial

output, and the sequential order of these data word components

of the serial output are programmable. Each data word may be

used once in either the SEROUTA or SEROUTB data streams.

Figure 31 illustrates the conceptual implementation of the Serial

Direct Output Port Mode.

In the Serial Direct Mode, the output data is loaded into serial shift

registers and routed to two serial output pins, SEROUTA and

SEROUTB. The serial output shift clock, SERCLK, is PROCCLK

divided by 1, 2, 4, 8, or 16. The divide down ratio is programmed

using Control Word 20, bits 14-16. The data is shifted out on the

rising edge of the internal SERCLK . The external clock polarity of

SERCLK is programmable via Control Word 20, bit 18. A sync sig-

nal is provided for detection of the start or end of each word in the

serial sequence. Control Word 20, Bit 17, sets the SERSYNC sig-

nal location as either preceding the MSB (typical for interfacing

with microprocessors) or following the LSB (typical for interfacing

to D/A converters). Control Word 20, bit 19, sets the SERSYNC

polarity as active low or high. The LSB of each data word can be

configured as either the true LSB data, or set at a fixed logic “1” or

“0” for use as a tag bit. Control Word 20 bits 0-13 set the LSB of

each of the 7 types of data words that can be configured in the

serial output stream. Control Word 19, bits 21-24 set the number

of serial data words that will be linked to form the serial outputs.

Up to 7 data words can be linked to form the serial output.

SEROUTA and SEROUTB will have an identical number of words

in the serial output streams.

The 16-bit I, Q, magnitude, phase, frequency, timing error, AGC

level, and “zeros” data words for are loaded into their respective

shift registers. The Magnitude and AGC Level data word are

unsigned binary format with a leading zero, while the remaining

signals are 2’s complement format.

Any of the eight data sources can be selected as the first serial

word for SEROUTA or SEROUTB. Control Word 19, bits 25-30

set the data type for the first serial word for SEROUTA and

SEROUTB. The three bit data type identifier is shown both in

Table 13 and in Figure 30, to the right of the controls for the cross

matrix switch. Serial output data word sequences are formed by

linking data words by programming the data source for each shift

requester’s shift input signal. This programming links the shift reg-

isters together in one or two serial chains. Thus the Control Word

19 term “Link follows X data”, where X is one of the seven data

types. Once the data source data word is selected (by program-

ming a three bit word representing one of the data types into Con-

trol Word 19, bits 25-27 (SEROUTA), and 28-30 (SEROUTB)), the

process for identifying the next word is to select a three bit data

type identifier which represents the data type to follow the source

data type. Program these bits into the Control Word 19 field repre-

senting the “Link following X data”, where X = the source data

type, defines the second word in the sequence. Likewise, the third

data word is linked by selecting the Control Word 19 bits that

identify the “Link following X data”, where X = the data type of the

second word in the serial chain. The process continues until all

the desired data words have been linked.

NOTE: I and Q are sample aligned in time. |r| and f are sample

aligned in time, but one sample delayed from I or Q.

The frequency sample is delayed in time from I or Q by

1 sample time + 63 tap FIR impulse response. If the FIR

is set to decimate, the FIR output will be repeated every

sample time until a new value appears at the filter out-

put. (i.e., the frequency samples are clocked out at the

I, Q sample rate regardless of decimation.)

HSP50214

Two examples will illustrate the process of configuring a serial

output using the Serial Output mode.

Serial Output Conﬁguration Example 1:

It is desired to output the I data word, followed by the Q data

word, followed by the Phase data word on the SEROUTA output.

Similarly, it is desired to output the Magnitude data word followed

by the Frequency data word, followed by the Timing Error data

word, followed by the AGC Level data word on the SEROUTB out-

put. Table 14 illustrates how Control Word 19 should be pro-

grammed.

TABLE 14. EXAMPLE 1 SERIAL OUTPUT CONTROL SETTINGS

NOTE: Because all but the first data word in the serial output

NOTE: Each type of data word should be used only once in

TABLE 13. LINKING CONTROL WORDS FOR SERIAL OUTPUT

BIT POSITION

CONTROL

WORD 19

30-28

27-25

24-21

20-18

17-15

14-12

DATA TYPE

IDENTIFIER

11-9

8-6

5-3

2-0

is identified by the data type that it follows, SEROUTB

can only be fully independent of the sequence in SE-

ROUTA if it does not use any of the same data word

types. This implies a partition as described in Example

1. Once a data word that is used in SEROUTA is called

out in SEROUTB, the remaining sequence in SEROUTB

will be identical to that portion of SEROUTA sequence

that follows the duplicate data type. This follows from

using the “Link follows ‘data type’ data” for word link-

age.

each data stream. If the “Link following I data” is pro-

grammed with the data type identifier for I, then the

part will repeat the I data word until all of the data word

locations are filled. In Example 1, if bits 20-18 were er-

roneously programmed to 000 (I data) then the SEROU-

TA would be four sequential repeats of the I data word.

000

001

010

011

100

101

110

111

SEROUTA Data Source

SEROUTB Data Source

Number of Serial Word

Links in a Chain

Link following I data

Link following Q data

Link following |r| data

Link following

Link following f data

Link following AGC data

Link following Timing

Error data

FUNCTION

I Data

Q Data

Magnitude (MAG) Data

Phase (PHAS) Data

Frequency (FREQ) Data

Timing Error (TIMERR) Data

AGC Gain

Zeros

data

DATA TYPE

VALUE

XXX

BIT

000

010

100

001

011

100

111

101

110

RESULT

(Timing)

(Zeros)

(AGC)

(N/A)

(|r|)

(Q)

(4)

( )

(I)

(f)

hsp50214 Intersil Corporation, hsp50214 Datasheet - Page 28

hsp50214

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