CT8022 Datasheet, PDF(28/194 Page) List of Unclassifed Manufacturers – VOIP/VON G.723.1, G279AB TRUESPEECH CO-PROCESSOR

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CT8022 Datasheet, PDF (28/194 Pages) List of Unclassifed Manufacturers – VOIP/VON G.723.1, G279AB TRUESPEECH CO-PROCESSOR

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TrueSpeechÂ® Co-Processor

PRELIMINARY/CONFIDENTIAL

Version: 1.18

4.5 Register Descriptions

4.5.1

Hardware Control Register

This register has read/write access from the Host.

(15)

(14)

(13)

(12)

(11)

Host IRQN

Master Enable

(10)

CONTINUE DMA Direction

(9)

(8)

TX DMA RX DMA TX DMA

Burst Mode Burst Mode Enable

(7)

(6)

(5)

RX DMA Aux Status Status Update IE

Enable Update IE

(4)

(3)

(2)

TX Ready IE

(1)

RX Ready IE

(0)

TX DMA Burst Mode:

When this bit is set, the TX DMA interface operates in Burst Mode. In Burst Mode, the

TXDREQ signal is continuously asserted if the TX Ready bit for the Host Transmit buffer

is set.

When this bit is clear, the TX DMA interface operates in Single Cycle Mode. In Single

Cycle Mode, the TXDREQ signal is de-asserted every time the TXDACKN and

HSTWRN signals are asserted, then re-asserted if the TX Ready bit is still set, after a

delay (buffer not full). Refer to Section 4.6.

RX DMA Burst Mode:

When this bit is set, the RX DMA interface operates in Burst Mode. In Burst Mode, the

RXDREQ signal is continuously asserted if the RX Ready bit for the Host Receive buffer

is set.

When this bit is clear, the RX DMA interface operates in Single Cycle Mode. In Single

Cycle Mode, the RXDREQ signal is de-asserted every time the RXDACKN and

HSTRDN signals are asserted, then re-asserted if the RX Ready bit for the Host Receive

Buffer is still set, after a delay (buffer not empty). Refer to Section 4.6.

DMA Direction:

This field allows the Host to use the DMA features in a full duplex or half duplex

configuration. In a half-duplex configuration, the Host needs to interface a single DMA

channel to the CT8022, and needs to be able to transfer data in either direction with this

single channel. This is accommodated within the CT8022 by permitting the functional

exchange of the external (physical) DMA interface pins. Refer to Section 4.6.

Normal Direction. The TXDREQ, RXDREQ, TXDACKN and RXDACKN operate in

the manner described in the CT8022 pin out. After reset, this bit is set to zero.

Reverse Direction. The physical pin functions of TXDREQ and RXDREQ, and also

TXDACKN and RXDACKN are exchanged, i.e. the TXDREQ pin assumes the function

and behavior of the RXDREQ pin and vice-versa. Refer to Section 4.6.1.2.

TX DMA Enable:

Setting this bit to 1 enables the TXDREQ and TXDACKN signals. If this bit is set to

zero, the TXDACKN signal is ignored and the TXDREQ signal is not asserted. This

control operates on the logical TX DMA signals, not the physical pins whose functions

can be exchanged between RX and TX. After reset, this bit is zero.

DSP GROUP, INC., 3120 SCOTT BOULEVARD

CT8022A11AQC FW Revision 0118

SANTA CLARA, CA 95054 PH: 408 986 â 4300 FAX: 408 986 â 4490

All specifications are subject to change without prior notice.

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