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PDI1394L40BE Schematic ( PDF Datasheet ) - NXP Semiconductors

Teilenummer PDI1394L40BE
Beschreibung 1394 enhanced AV link layer controller
Hersteller NXP Semiconductors
Logo NXP Semiconductors Logo 




Gesamt 70 Seiten
PDI1394L40BE Datasheet, Funktion
INTEGRATED CIRCUITS
SEE THE LAST 2 PAGES OF THIS DATASHEET FOR A LIST OF ERRATA RELATED TO THIS PART.
PDI1394L40
1394 enhanced AV link layer controller
Preliminary specification
Supersedes data of 2000 May 15
2000 Dec 15
Philips
Semiconductors






PDI1394L40BE Datasheet, Funktion
Philips Semiconductors
1394 enhanced AV link layer controller
Preliminary specification
PDI1394L40
6.0 FUNCTIONAL DIAGRAM
HIF A[7:0]
HIF D[15:8]
HIF AD[7:0]
HIF A8
HIF WRN
HIF RDN
HIF CSN
HIF 16BIT
HIF MUX
RESETN
HIF ALE
HIF WAIT
HIF INTN
PD
CYCLEIN
CYCLEOUT
CLK50
AV1 D[7:0]
AV1CLK
AV1VALID
AV1SYNC
AV1FSYNC
AV1 SY
AV1READY
AV1ENDPCK
AV1ERR0
AV1ERR1
PDI1394L40
IEEE 1394
ENHANCED
AV LINK LAYER CONTROLLER
7.0 INTERNAL BLOCK DIAGRAM
AV1 D[7:0]
AV1READY
AV1CLK
AV1SYNC
AV1VALID
AV1FSYNC
AV1ENDPCK
AV1ERR0
AV1ERR1
AV1SY
AV1 LAYER
ISOCHRONOUS
TRANSMITTER/
RECEIVER
AV2 D[7:0]
AV2READY
AV2CLK
AV2SYNC
AV2VALID
AV2FSYNC
AV2ENDPCK
AV2ERR0/LTLEND
AV2ERR1/DATAINV
AV2SY
AV2 LAYER
ISOCHRONOUS
TRANSMITTER/
RECEIVER
HIF A[7:0]
HIF A8
HIF D[15:8]
HIF AD[7:0]
HIF 16BIT
HIF WRN
HIF ALE
HIF RDN
HIF MUX
HIF CSN
HIF WAIT
HIF INTN
8-BIT
INTERFACE
12KB BUFFER
MEMORY
(ISOCH & ASYNC
PACKETS)
ASYNC
TRANSMITTER
AND
RECEIVER
PHY D[0:7]
PHY CTL[0:1]
LPS
LREQ
ISON
LinkOn
SCLK
1394MODE
VDD
GND
AV2D[7:0]
AV2CLK
AV2VALID
AV2SYNC
AV2FSYNC
AV2 SY
AV2READY
AV2ENDPCK
AV2ERR0/LTLEND
AV2ERR1/DATAINV
SV01833
LINK CORE
CYCLEOUT
LPS
CYCLEIN
PHY D[0:7]
PHY CTL[0:1]
LREQ
LinkOn
ISON
PD
SCLK
1394MODE
NOTE: THERE IS ONE
ISOCHRONOUS RECEIVER
AND ONE ISOCHRONOUS
TRANSMITTER—THEREFORE,
WHEN EITHER AVPORT IS SET
TO TRANSMIT, THE OTHER
AVPORT IS AUTOMATICALLY
SET TO RECEIVE
CONTROL
AND
STATUS
REGISTERS
RESETN
SV01834
2000 Dec 15
3

6 Page









PDI1394L40BE pdf, datenblatt
Philips Semiconductors
1394 enhanced AV link layer controller
Preliminary specification
PDI1394L40
12.0 FUNCTIONAL DESCRIPTION
12.1 Overview
The PDI1394L40 is an IEEE1394–1995 and IEEE1394.a compliant link layer controller. It provides a direct interface between a 1394 bus and
various MPEG–2 and DVC codecs. The AV Link maps and unmaps AV data streams and similar data onto 1394 isochronous packets. Data can
be ciphered or deciphered according to the ‘5C’ standard method of content protection. The AV Link also provides an 8 bit or 16 bit wide host
interface for an attached microcontroller. Through the host interface port, the host controller can configure the AV layer for transmission or
reception of AV datastreams. The host interface port also allows the host controller to transmit and receive 1394 asynchronous data packets.
12.2 AV interface and AV layer
The AV interface and AV layer format “application packets” according to the IEC 61883 specification for isochronous transport over the 1394
network. The AV transmitter and receiver within the AV layer perform all the functions required to pack and unpack AV packet data for transfer
over a 1394 network. Once the AV layer is properly configured for operation, no further host controller service should be required. The operation
of the AV layer is full-duplex, i.e., the AV layer can receive and transmit AV packets on the same bus cycle.
12.2.1 IEC 61883 International Standard
The PDI1394L40 is specifically designed to support the IEC61883 International Standard of Digital Interface for Consumer Electronic
Audio/Video Equipment. The IEC specification defines a scheme for mapping various types of AV datastreams onto 1394 isochronous data
packets. The standard also defines a software protocol for managing isochronous connections in a 1394 bus called Connection Management
Protocol (CMP). It also provides a framework for transfer of functional commands, called Function Control Protocol (FCP).
12.2.2 CIP Headers
A feature of the IEC61883 International Standard is the definition of Common Isochronous Packet (CIP) headers. These CIP headers contain
information about the source and type of datastream mapped onto the isochronous packets.
The AV Layer supports the use of CIP headers. CIP headers are added to transmitted isochronous data packets at the AV data source. When
receiving isochronous data packets, the AV layer automatically analyzes their CIP headers. The analysis of the CIP headers determines the
method the AV layer uses to unpack the AV data from the isochronous data packets.
The information contained in the CIP headers is accessible via registers in the host interface.
(See IEC61883 International Standard of Digital Interface for Consumer Electronic Audio/Video Equipment for more details on CIP headers).
12.2.3 The AV Interface
The AV link’s 8-bit parallel interface is synchronous with AVxCLK, and was designed to interface with various MPEG-2 and DVC codecs. The
AV interface port buffer, if so programmed, can time stamp incoming AV packets. The AV packet data is stored in the embedded memory buffer,
along with its time stamp information. After the AV packet has been written into the AV layer, the AV layer creates an isochronous bus packet
with the appropriate CIP header. The bus packet along with the CIP header is transferred over the appropriate isochronous channel/packet.
The size and configuration of isochronous data packet payload transmitted is determined by the AV layer’s configuration registers accessible
through the host interface.
The AV interface port waits for the assertion for AVxVALID and AVxSYNC. AVxSYNC is aligned with the rising edge of AVxCLK and the first
byte of data on AVxDATA[7:0]. The duration of AVxSYNC is one AVxCLK cycle. AVxSYNC signals the AV layer that the transfer of an AV packet
has begun. At the time the AVxSYNC is asserted, the AV layer creates a new time stamp in the buffer memory. (This only happens if so
configured. The DVC format does not require these time stamps). The time stamp is then transmitted as part of the source packet header. This
allows the AV receiver to provide the AV packet for output at the appropriate time. Only one AVSYNC pulse is allowed per application packet; if
additional sync pulses are presented before the full packet is inputted, a new packet will be started and the previously inputted packet data will
be discarded (and not transmitted) in conjunction with the input error interrupt bit (INPERR, bit 3 of register 0x02C) being set to flag the error.
An additional synchronization mechanism is defined by the IEC 61883 specification, called frame sync. The frame synchronization signal
AVxFSYNC is time stamped and placed in the SYT field of the CIP header. The default delay value for the frame sync is 3 bus cycle times
(duration of 125 µs each) in the future, and is transmitted on the very next isochronous cycle regardless of available data. The PDI1394L40
allows this value to be programmable from 2 to 4 cycle times (see Section 13.2.1). Additionally, for some audio applications, the SYT value can
be programmed to be appended only to isochronous cycles that have application data attached to them. This mode is enabled via the AUDIO bit
(again, see Section 13.2.1). When the AUDIO mode is enabled, two additional cycle delays are automatically added to the SYT_DELAY value
(bits 6 and 5 of the ITXPKCLT register). On the receiver side, when the SYT stamp matches the cycle timer register, a pulse is generated on the
AVxFSYNC output. The timing for AVxFSYNC is independent of AVxCLK. The maximum repetition rate of application-presented AVFSYNC
pulses is limited to 8,000 pulses per second (the bus cycle rate). In the rare instance of SYT queue overflow with possible loss of up to 7
AVFSYNC pulses, the “SYTOVF” interrupt (bit 14 in register 0x04C) will occur. If an SYTOVF interrupt occurs, the contents of the SYT queue is
automatically flushed and normal operation automatically resumes.
Some applications would like to create their own transmit timestamps independent of the AV Layer. On receive, these applications would like to
process the embedded time stamps instead of allowing the AV Layer to process these time stamps. This can be accommodated via the
ENXTMSTMP bit in the ITXPKCTL register for transmit and DIS_TSC bit in the IRXPKCTL register for receive. In conjunction with this mode,
additional means of flow control are enabled via the AVxREADY signal.
2000 Dec 15
9

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