SAA7785 [NXP]
ThunderBird Avenger PCI Audio Accelerator; 雷鸟复仇者PCI音频加速器
| 型号: | SAA7785 |
| 厂家: | 
NXP |
| 描述: | ThunderBird Avenger PCI Audio Accelerator |
| 文件: | 总68页 (文件大小:1214K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
INTEGRATED CIRCUITS
SAA7785
ThunderBird Avenger PCI Audio
Accelerator
Preliminary specification
1999 Nov 12
Philips
Semiconductors
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
IEEE 1394 devices via 14 Channel Virtual Write
Master
• Superior hardware acceleration for minimum CPU
consumption
• Broadest API compatibility including
DirectSound3DTM, EAXTM, and A3DTM
• 64 hardware wavetable polyphony
• Professional soft-synth with 256 voice polyphony
and XG support
GENERAL DESCRIPTION
The SAA7785 ThunderBird AvengerTM is a high-perfor-
mance PCI audio accelerator offering the ultimate
home theater, gaming and music solution. Armed with
QSound’s advanced QMSSTM, ThunderBird AvengerTM
transforms ordinary stereo games, movies and music
to 5.1 speaker output. An integrated S/PDIF OUT con-
nects to consumer audio equipment and S/PDIF IN
support provides digital connection from a CD player or
other digital audio equipment. The ThunderBird Aveng-
erTM supports redirection of up to 5.1 streams from PCI
to USB or IEEE 1394 devices. Full hardware accelera-
tion of DirectSoundTM, 3D audio, music synthesis and
gameport functions provides increased graphic framer-
ates and industry leading low CPU consumption. Utiliz-
ing a specialized DSP controller and combining with a
AC97 codec creates a high quality, high performance,
low cost audio subsystem.
• Second generation ActiMedia programmable DSP
architecture
• Global reverb for external digital and analog input
sources
• Enhanced MIDI reverb and chorus (per track and
global)
2
• Independent I S input and output ports
• Comprehensive Real Mode DOS and DOS win-
dows support
• Dual gameport accelerator with leagacy and digital
joystick modes
• PC/PCI, DDMA, and LAMTM PCI DMA support
• Supports quad and dual AC97 CODECS
• 3.3 v operation with 5 v tolerant I/O
FEATURES
(R)
(R)
(R)
• 2, 4, or 5.1 speaker and headphone 3D algorithms
• QSound3DInteractiveTM interactive positional 3D
• Windows 95 , Windows 98, and Windows
2000 (WDM) drivers
• QSound Multi-Speaker SystemTM stereo to quad or
stereo to 5.1 processing
• QSound Environmental ModelingTM (I3D Level 2.0,
EAXTM 1.0/2.0 compatible)
APPLICATIONS
• Complete audio subsystem when combined with
AC97 CODEC
• QXpanderTM and stereo-to-3D remapping
• Integrated S/PDIF OUT and optional S/PDIF IN
• AC3 5.1 or stereo playback through S/PDIF output
• PC sound cards and motherboards
• Video games and other PCI bus-based multimedia
applications
• Processing up to 512 simultaneous inputs including
256 DirectSound streams and up to 96 concurrent
CD quality 3D streams
• Redirection up to 5.1 streams from PCI to USB or
1999 Nov 12
2
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
ORDERING INFORMATION
TYPE
PACKAGE
NUMBER
NAME
DESCRIPTION
VERSION
SAA7785
TQFP128
Thin quad flat pack; 128 leads (lead length 1.00 mm); body
14 x 14 x 1.00 mm
25-90040
SAA7785
TQFP100
Thin quad flat pack; 100 leads (lead length 1.00 mm); body
14 x 14 x 1.00 mm
25-90042
QUICK REFERENCE DATA
Condition
Symbol
Maximum Ratings
Ambient Operating Temperature
Ambient Storage Temperature
T
0°C to +70°C
A
T
-65°C to +150°C
-0.5V to 4.6V *
-0.5V to 3.63V *
3.0V to 3.63V *
-0.5V to 5.5V *
S
Non-Operating Core and Ring Supply Voltage
Operating Core Supply Voltage
Operating Ring Supply Voltage
5V Tolerant Supply (5.0V nominal supply)
NWELL to VDD Differential
VDD, VDDIC
VDDIC
VDD
NWELL
NWELL-VDD
0 ≤ (NWELL-VDD) < 4.0V
-0.5V to VDD+0.5V (≤ 4.6V max)+
-0.5V to VDD+0.5V (≤ 4.6V max)+
-0.5V to 5.5V (≤ 6.0V max)+
-0.5V to VDD+0.5V (≤ 4.6V max)+
± 20mA
3V Tolerant I/O DC Input Voltage
3V Tolerant I/O DC Output Voltage
5V Tolerant I/O DC Input Voltage
5V Tolerant I/O DC Output Voltage
V
V
V
V
I3
O3
I5
O5
DC Input Current (at V < 0V or V > VDD)
I
I
I
I
DC Output Current (at V < 0V or V > VDD)
I
O
± 20mA
O
O
Power Dissipation
P
500mW
D
*Refer to Section 3.1 to ensure proper power supply sequencing as well as voltage ranges.
+Items in parenthesis are non-operating conditions.
1999 Nov 12
3
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
FIGURE 1
BLOCK DIAGRAM
AC Link Interface
AC LINK
I2S
I2S
Interface
Port
S/P DIF
Output
S/P DIF
Serial
CFG
Port
PCI
Configuration
Headers
DSP Interrupt
Controller
INTRs
Legacy
DMA
Interface
PCI
Bus
PCI
Master/Slave
Interface
DSP Core
Test
Port
SoundBlaster
Registers
DSP Code
ROM
Serial
Interrupt
Controller
INTA#
OPL3
Registers
DSP Code
RAM
GPIO
General
Purpose I/O
Sample Fetch
Accelerator
GamePort
Game Port
Interface
DSP
Memory
Controller
PLL
Test Logic
Virtual
Registers
DSP Data
RAM
AC97
Xtal_out
PLL Cell
Address
Generation
FM
Accelerator
Multimedia
Timer
Prog
Host/DSP
Interface
IIR Filter
MIDI Regs
and UART
Phase/Env
Accelerator
MIDI Interface
1999 Nov 12
4
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
PINNING
TM
TABLE 1
Signal and Pin Names for 128 pin SAA7785 ThunderBird Avenger
PIN
#
PIN NAME
1
2
3
4
5
6
7
8
9
BIT_CLK
33 GNT#
34 PME#
35 RST#
36 VSS
65 AD22
66 VDD
97 AD12
98 AD11
99 AD10
SDATA_OUT
SDATA_IN0
SDATA_IN1
AC_RST#
VSS
67 AD21
68 AD20
69 AD19
70 VSS
100 NWELL1
37 PCLK
38 PCGNT#
39 PCREQ#
40 VDD
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
PGPIO4
AD9
JAB1
71 AD18
72 AD17
73 AD16
74 PGPIO7
75 NWELL3
76 VSS
VDD
JBB1
AD8
VDD
41 GNT#
42 VDDIC
43 REQ#
44 PGPIO0
45 AD13
46 AD30
47 VDD
VSS
10 JACX
C/BE0
VDDIC
AD7
11 JBCX
12 MIDIOUT
13 JBCY
77 C/BE2#
78 FRAME#
79 VDD
VDD
14 NWELL2
15 JACY
AD6
AD5
16 VSSIC
17 JBB2
48 PGPIO1
49 AD29
50 VSS
80 IRDY#
81 PGPIO6
82 VDDIC
83 TRDY#
84 VSS
VSS
AD4
18 TRI#/CFGCLK
19 MIDIIN
20 VDD
AD3
51 NWELL0
52 PGPIO2
53 AD28
54 VSSIC
55 AD27
56 VDD
AD2
VSSIC
AD1
21 VSS
85 DEVSEL#
86 STOP#
87 PGPIO5
88 VDD
22 TRI#/CFGCLK
23 NAND#/CFGDAT
24 SPDO
AD0
VDD
TWS
25 CCLK
57 AD26
58 VSS
89 PERR#
90 SERR#
91 PAR
TSD
26 DSPCLK
27 SPDI
TSCK
CLKRUN
RESVDS
RSD/GPIO2
RSCK/GPIO1
RWS/GPIO0
SYNC
59 AD25
60 AD24
61 C/BE3#
62 IDSEL
63 AD23
64 PGPIO3
28 VDD
92 C/BE1
93 AD15
94 AD14
95 VSS
29 VSS
30 PSUB
31 PLLAPWR
32 PLLAGND
96 AD13
1999 Nov 12
5
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
FIGURE 2
PIN CONFIGURATION
TM
SAA7785 ThunderBird Avenger PINS ON 128 PIN TQFP PACKAGE DIAGRAM (TOP VIEW).
1
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
AD13
BIT_CLK
SDATA_OUT
SDATA_IN0
SDATA_IN1
AC_RST#
VSS
2
VSS
3
AD14
4
AD15
5
C/BE1#
PAR
6
7
SERR#
PERR#
VDD
JAB1
8
JBB1
9
VDD
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
PGPIO5
STOP#
DEVSEL#
VSS
JACX
JBCX
SAA7785
MIDIOUT
JBCY
TRDY#
VDDIC
PGPIO6
IRDY#
VDD
NWELL
JACY
VSSIC
JBB2
JAB2
128 PIN TQFP
FRAME#
C/BE2#
VSS
MIDIIN
VDD
VSS
NWELL
PGPIO7
AD16
TRI#/CFGCLK
NAND#/CFGDAT
SPDO
AD17
CCLK
AD18
DSPCLK
SPDI
VSS
AD19
VDD
AD20
VSS
AD21
PSUB
VDD
PLLAPWR
PLLAGND
AD22
Notes:
1. Package body size is 14 mm.
2. Scale is approx 1” = 5.08 mm (5X actual size).
3. Use package bond form nuber 23-xxxxx.
1999 Nov 12
6
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
PINNING
TM
TABLE 2
PIN DEFINITIONS FOR THE 100 Pin SAA7785 ThunderBird Avenger
PIN
#
PIN NAME
1
2
3
4
5
6
7
8
9
BIT_CLK
30 PCLK
31 PCGNT#
32 PCREQ#
33 GNT#
34 VDDIC
35 REQ#
36 AD31
37 AD30
38 VDD
59 VSS
87 AD5
88 VSS
89 AD4
90 AD3
91 AD2
SDATA_OUT
SDATA_IN
AC_RST#
VSS
60 C/BE2#
61 FRAME#
62 IRDY#
63 VDDIC
64 TRDY#
65 DEVSEL#
66 STOP#
67 VDD
JAB1
92 VSSIC
93 AD1
JBB1
JACX
94 AD0
JBCX
95 VDD
10 MIDIOUT
11 JBCY
39 AD29
40 NWELL_40
41 AD28
42 VSSIC
43 AD27
44 AD26
45 VSS
68 PERR#
69 SERR#
70 PAR
96 CLKRUN#
97 RSD/GPIO2
98 RSCK/GPIO1
99 RWS/GPIO0
100 SYNC
12 JACY
13 VSSIC
14 JBB2
71 C/BE1#
72 AD15
73 AD14
74 VSS
15 JAB2
16 MIDIIN
17 VDD
46 AD25
47 AD24
48 C/BE3#
49 IDSEL
50 AD23
51 AD22
52 VDD
75 AD13
76 AD12
77 AD11
78 AD10
79 NWELL1
80 AD9
18 TRI#/CFGCLK
19 NAND#/CFGDAT
20 SPDO
21 CCLK
22 DSPCLK
23 PSUB
81 VDD
24 PLLAPWR
25 PLLAGND
26 INTA#
53 AD21
54 AD20
55 AD19
56 AD18
57 AD17
58 AD16
82 AD8
83 C/BE0#
84 VDDIC
85 AD7
27 PME#
28 RST#
86 AD6
29 VSS
1999 Nov 12
7
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
TM
SAA7785 ThunderBird Avenger pinout for 100 pin package
AD13
VSS
AD14
AD15
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51
BIT_CLK
SDATA_OUT
SDATA_IN0
AC_RST#
VSS
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
C/BE1#
PAR
SERR#
PERR#
VDD
STOP#
DEVSEL#
TRDY#
VDDIC
IRDY#
FRAME#
C/BE2#
VSS
AD16
AD17
AD18
AD19
AD20
AD21
VDD
AD22
JAB1
JBB1
JACX
JBCX
SAA7785
MIDIOUT
JBCY
JACY
VSSIC
JBB2
JAB2
MIDIIN
VDD
100 PIN TQFP
TRI#/CFGCLK
NAND#/CFGDAT
SPDO
CCLK
DSPCLK
PSUB
PLLAPWR
PLLAGND
Notes:
1. Package body size is 14 mm.
2. Scale is approx 1” = 5.08 mm (5X actual size).
3. Use package bond form nuber 23-61269.
1999 Nov 12
8
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
AC3 data from a DVD directly to an AC3 decoder.
The S/PDIF stereo output capability allows users to
connect to a variety of consumer audio equipment,
such as a stereo receiver, minidisk, or digital
speakers. S/PDIF IN support through the I S port
enables digital connection from a CD player or other
audio equipment that utilizes the S/PDIF format.
FUNCTIONAL OVERVIEW
QSound 3D Audio Algorithms
2
QSound Labs most advanced algorithms for 3D
virtualization, multichannel processing, audio mixing
and wavetable synthesis result in unsurpassed 3D
audio. QSound’s Q3DTM is the only solution developed
natively for speakers and therefore requires no
crosstalk cancellation. The result is a wide “sweetspot”,
strong positional perception and insensitivity to head
movement and position. Listeners can enjoy a true 3D
experience with only two speakers connected to their
PC.
Superior Concurrency
The SAA7785 ThunderBird AvengerTM combines its
64 hardware input buffers with software (256 MIDI
channels and 192 DirectSoundTM inputs) for a total of
512 simultaneous streams. The ThunderBird
AvengerTM can process 64 combined audio and
wavetable voices in hardware plus an additional 192
audio streams using QSound’s efficient MMX host
engine. In addition, Avenger offers game developers
up to 96 simultaneous 3D streams. For greater
concurrency and higher music polyphony a
professional quality 256 voice soft-synth is available.
This can be used for all music synthesis reserving all
256 streams for other audio sources, making the
ThunderBird AvengerTM an excellent solution for
gaming applications.
QSound Multi-Speaker SystemTM (QMSSTM) uses a
proprietary stereo-to-quad or 5.1 remapping algorithm
to transform ordinary stereo into more immersive quad
and 5.1 outputs. Not simply mirroring the front speaker
output to the rear speakers, QMSSTM creates 4 and 5.1
individual channels. The result is DirectSound games
become more realistic with action all around the
listener; music CD, MP3 and MIDI playback become
more immersive; and stereo and Dolby ProLogic film
clips become theatre-like in presentation without
needing a specific decoder.
QSound3DInteractiveTM utilizes the ActiMediaTM DSP
to interactively position DirectSound streams in 3D
space around the listener. Four different 3D engines,
based on HRTF and patented QSound technology,
render sound over headphones, 2, 4 or 5.1 speakers.
Q3DITM uses the industry standard DirectSound3DTM
API and is compatible with DirectSound, EAXTM, and
A3D1.0TM applications.
Hardware Acceleration
The SSA7785 ThunderBird AvengerTM is a true
hardware audio accelerator. CPU consumption is
minimized by processing sample rate conversion,
panning, mixing, 3D virtualization, filtering, music
synthesis, multichannel conversion, and gameport
functions in the hardware DSP. This frees up the host
CPU to perform other tasks, boosting graphic frame
rates and raising system benchmarks.
QSound Environmental ModelingTM (QEMTM) adds
further realism by adding reverb, occulsion and
obstruction as additional positional ques. With QEM
enabled, each DirectSound3D sound source receives
reverb simulating acoustic reflections based on the
regions reverb present and the sources’ current
position relative to the listener. In addition obstruction
and occlusion filters are used to simulate the acoustical
effects of barriers and openings in a games virtual 3D
environment such as walls, doorways and pillars, and
is compliant with I3D Level 2.0.
320 Voice CD Quality Wavetable Synthesis
ThunderBird AvengerTM includes two wavetable
synthesis engines. When hardware mode is enabled,
the ActiMediaTM DSP can produce up to 64
wavetable 44Khz, 16 bit voices. This mode
minimizes CPU consumption and is ideal for games
with MIDI music tracks. In addition, a professional
quality soft-synth can produce up to 256 voices
including special effects. The soft-synth is
configurable and can be optimized for highest quality
with pure music applications or for minimum CPU
consumption in gaming applications. Combining both
hardware and software synthesizers allows for 320
S/PDIF OUT/IN
The SAA7785 ThunderBird AvengerTM provides an
integrated S/PDIF OUT port enabling users to output
1999 Nov 12
9
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
total simultaneous voices.
ActiMediaTM DSP Architecture
ActiMediaTM DSP architecture combines the strengths
of programmable and fixed function DSP architectures.
Programmability enables custom features, field
upgrades, and simple application development, while
an array of gate-efficient fixed function DSP processors
(accelerators) operate in parallel to provide an
excellent price/performance ratio. Unlike fixed-point
DSPs that must use a single resolution for all audio
processing, each accelerator is designed with the
optimum resolution for its function. This provides audio
integrity without the cost of high resolution or floating
point programmable DSP implementation.
Digital Model Dual Game Port
The software polling used by analog game ports can
consume up to 10% of the host CPU. ThunderBird PCI
products utilize a digital operation mode that can
eliminate software polling and accelerate the game
port function resulting in significantly improved system
performance. Joystick buttons can be polled or
interrupt driven to further enhance performance. A
default analog mode assures compatibility with DOS
and other non-DirectInputTM applications.
Comprehensive Legacy Audio Support
SoundBlaster Pro compatibility in both Real Mode DOS
and DOS windows is achieved through hardware
SoundBlaster and OPL3 (FM) emulation registers.
Legacy DMA over the PCI bus is supported on all
major platforms utilizing PC/PCI, DDMA, or Philips’
proprietary Legacy Accommodation ModeTM (LAMTM).
DOS music synthesis includes stereo MIDI playback
and quad/5.1 MIDI playback as well as FM emulation.
1999 Nov 12
10
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
Architectural Overview
TM
The SAA7785 ThunderBird Avenger is a multi-functional device that provides sound processing producing Sound-
Blaster-compatible emulation, DirectSound acceleration, 3D sound, spatialization, special effects, and 64-voice wavet-
able synthesis through the use of a Pine Digital Signal Processor (DSP) as the primary engine. Included within the
2
ThunderBird Q3DIII are interfaces for an AC97 codec, I S I/O, MIDI port, standard analog joysticks, and an S/P DIF
Consumer Output port.
FIGURE 3
Block Diagram of a PC/AT System with the SAA7785 ThunderBird AvengerTM
TM
Pentium
Cache
CPU
HOST BUS
AGP
System
Controller
Memory
Multi I/O
Graphics
ISA BUS
PCI BUS
PCI to ISA
Bridge
TM
ThunderBird Audio
Controller
AC97 CODEC
2/4 Channels
(Primary)
AC97 CODEC
Additional
2 channels
2
MIDI Port
Joystick
I S
S/P DIF
1999 Nov 12
11
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
TM
The SAA7785 ThunderBird Avenger chip is designed to operate on any PCI system with the proper software sup-
(tm)
(tm)
port. Software support is required for non-DOS applications, such as Windows
tem can also be supported with the additional software.
drivers. Non Pentium
based sys-
Systems that provide DDMA or have the ISA bridge on the primary PCI bus are able to perform SoundBlaster emulation
TM
enabling the operation of legacy DOS based games. The SAA7785 ThunderBird Avenger chip provides two 8237
style DMA channels to perform legacy DMA cycles on selected systems. The same two 8237 channels provide Distrib-
uted DMA support as well. PC/PCI is also supported to provide legacy DMA support on chipsets that support said pro-
tocol. For systems that support neither DDMA nor PC/PCI, there is a software solution implemented as a TSR.
DirectSound acceleration, both for 2D and 3D audio along with wavetable sample fetching, is accomplished using the
TM
SAA7785 ThunderBird Avenger chip PCI 2.1 bus master. This bus master provides the means for the SAA7785
TM
ThunderBird Avenger chip to accelerate DirectSound audio streams as well as fetch wavetable sample for the 64
voice wavetable synthesis and effects algorithms. Wavetable sample fetching is always retrieved from system memory
saving the cost of an external wavetable ROM. Downloadable sample sets, with software, are also supported using the
bus master hardware.
TM
Additionally, the SAA7785 ThunderBird Avenger chip follows the AC97 Architecture to provide high quality audio by
the use of one or more separate codecs. Serial DACs, as well as AC97 CODECs can be selected to providing audio
into the analog world for low cost playback. Multi-channel AC97 CODECs can be used to provide up to 8 channels of
audio output.
A programmable DSP core is also provided to run the audio algorithms for wavetable synthesis, FM synthesis, special
effects such as reverb and chorus, along with sample rate conversion and data management. The imbedded DSP core
and its peripherals are managed solely by the DSP and requires no intervention from the host. The host can DSP can
pass messages to and from each domain to provide a host software interface into the DSP domain.
PCI Interface, Configuration, and Interrupt Serializer
TM
The SAA7785 ThunderBird Avenger chip PCI interface is composed of master and slave state machines, an
address/data/byte enable datapath, a bus arbiter for the two on chip masters, control logic for the master and slave
internal busses, an interrupt serializer, and the standard PCI configuration register header.
TM
The standard PCI configuration header is also supported. Since the SAA7785 ThunderBird Avenger is a multi-func-
tion device, there are three PCI configuration spaces allocated for each function. The three functions are the audio
device, the joystick and the 16650 UART. The purpose of the multiple configuration headers is to ensure PCI compli-
ance and enable the operating system to select the correct software driver for each individual device. The Serial CFG
Port is used to shift in subvendor specific data for each of the PCI configuration headers. The Serial CFG port is an
2
TM
industry standard I C format. The configuration headers are included in the PCI interface to reduce inter-block rout-
ing. All other PCI configuration space registers are included in the blocks that utilize these registers.
Clocks and the PLL Subsystem
TM
Clocks for operation of the SAA7785 ThunderBird Avenger are derived from two sources; an external crystal and bit
TM
clock from the AC97 CODEC. The SAA7785 ThunderBird Avenger
external crystal.
PLL Subsystem derives its reference from the
TM
The SAA7785 ThunderBird Avenger substem consists of a fixed layout PLL cell and a digital interface to the 8 bit PS
bus. The PLL is designed to drive the clocks for the DSP subsystem. The implementation calls for the PLL to be utilized
with complete programmable register interface to enable the tuning of the frequencies as necessary.
Multimedia Timer
TM
The SAA7785 ThunderBird Avenger chip supplies a 20-bit, .84 uS resolution timer for game synchronization. The
1999 Nov 12
12
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
timer data can be accessed as an I/O device. This timer can be used by game developers to keep track of time elapsed
to synchronize the video to the audio stream. The timer can be polled or interrupt driven and is selectable by the user
application.
DMA
DMA is for the Sound Blaster registers, the DSP Mastering Device (DMD), and the S/P DIF output. To cover as many
systems as possible, the DMA interface supports three modes for legacy support: Mobile PC/PCI DMA Arbitration
(PC/PCI), Distributed DMA (DDMA) and Legacy Accommodation Mode (LAM).
TM
Legacy Accommodation Mode allows the SAA7785 ThunderBird Avenger , in an architecturally compatible system, to
snoop and snarf selected DMA cycles on the PCI bus that were intended to the ISA Bridge. If a chip set supports Dis-
TM
tributed DMA, the SAA7785 ThunderBird Avenger will use this method since it is more efficient than LAM. Addition-
ally, PC/PCI can be utilized as well if neither DDMA nor LAM are supported on the selected chip set.
AC Link
TM
The SAA7785 ThunderBird Avenger chip provides support for the AC97 (V2.1) specification by supplying an AC Link
interface to communicate with industry standard AC97 CODECs. Up to two CODECs can be used for a total of 8 possi-
ble outputs (4 stereo channels).
Sound Blaster Registers
The other device that requires DMA is the SoundBlaster registers. DMA is used to transfer SoundBlaster digital audio
files from the host to a codec for playback in addition to providing a mailbox for other commands. In order for the DSP
to emulate the Sound Blaster sound effects, a legacy register set must be implemented to capture these commands.
These sixteen, 16-bit registers are used primarily to emulate SoundBlaster Pro register set as well as the SoundBlaster
Pro mixer registers. These registers are used as a mailbox to the DSP data bus to deliver data to the SoundBlaster
TM
Emulation code. The SAA7785 ThunderBird Avenger chip supports DMA to the Sound Blaster that legacy code
requires. All data transmitted over the SoundBlaster Registers is processed by the DSP to emulate the Sound Blaster
Pro hardware.
OPL3 Registers and the FM Accelerators
The OPL3 register interface is a subset of the complete SoundBlaster register set. The OPL3 registers are separate to
point out that the FM legacy is supported at the register level. The OPL3 registers simply pass FM synthesis commands
to the SoundBlaster Emulation code and receive status from the same code.
Virtual Registers
The Virtual Registers interfaces the PCI bus and two substantial wavetable synthesis accelerators: the Sample Fetch
and Address Generation accelerators. The Virtual Registers is responsible for setting up the PCI interface for master
cycles data fetches and retrieving those fetches into a sample buffer. The Virtual Registers get commands from the
Address Generation accelerator and turns them into PCI master requests. Once the data has been retrieved, the Virtual
Register then instructs the Sample Fetch accelerator to process a block of data. Once the processing is complete, the
Sample Fetch Accelerator notifies the Virtual Registers that all is clear and that new data can be processed.
Address Generation Accelerator
The Address Generation accelerator is a preprocessing unit for the sample fetching mechanism inside the Virtual Reg-
isters. The Address Generator will get a set of parameters from the DSP code on a per voice basis for either Direct-
Sound processing or wavetable synthesis. Once these voice parameters are set, the hardware is instructed to translate
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ThunderBird Avenger PCI Audio
Accelerator
SAA7785
the addresses and fetch the audio samples from system memory. The Address Generator is also capable of looping
without intervention from the DSP code. The DSP kills voices by instructing the Address Generator to stop fetching
data. Once the samples are fetched, they are stored in the Virtual Register’s input sample buffer for processing by the
Sample Fetch Accelerator.
Sample Fetch Accelerator
The Sample Fetch accelerator is used to process audio samples fetched by the Virtual Registers and deliver them to
the DSP code for further processing. This processing can include pitch shifting or sample rate conversion. The degree
of pitch shifting is under direction of DSP code indicating the Sample Fetch accelerator is programmable. The input
samples are taken from the Virtual Register’s input sample buffer and stored in DSP memory space.
MIDI Registers and UART
TM
An MPU401 compatible UART is supplied to enable external MIDI devices to use the SAA7785 ThunderBird Avenger
chip synthesizers as well as its external device’s own synthesizer. The MIDI register interface is used to pass the MIDI
command stream from the host to the DSP firmware for parsing into synthesizer commands. The MPU401 UART
always operates in “dumb” mode. Both the PCI and DSP can access the MIDI UART directly. Data is presented from/to
the MPU401 Registers in a mailbox fashion to the MPU401 UART.
General Purpose Input/Output
There are seven general purpose I/O pins that are controlled by the PCI bus (128 pin version). No GPIOs are available
in the 100 pin package.
PINE DSP Core
The Pine DSP core is a programmable 16-bit integer DSP with separate code and data busses (Harvard architecture).
Main features of the DSP core include 2K x 16 data RAM, 64K word code and data space, 16 x 16 bit two’s complement
parallel multiplier with 32-bit product, single cycle multiply/accumulate instructions, 36-bit ALU, two 36-bit accumulators,
six-general purpose 16-bit pointer registers, option for up to eight user-defined 16-bit registers, zero overhead looping,
repeat and block-repeat instructions with one nesting level, shifting capability, automatic saturation mode on overflow
while reading content of accumulators, divide and normalize step support.
As noted on Figure 2, the DSP subsystem is supported by two dedicated Pine internal busses called the DSP code bus
and the DSP data bus. All DSP peripherals are connected to the DSP data bus while the code bus is used for just that,
DSP code ROM and RAM. Both the DSP code and data busses are 16-bit for the address and data lines on each bus.
DSP code also enables the DSP core to act as a PCI bus master making it a powerful and flexible audio processing
unit.
DSP Interrupt Controller
The DSP Interrupt Controller is a programmable, priority encoded device that encodes two interrupt signals to the Pine
core. The DSP Interrupt Controller resides on the DSP data bus and is programmed by DSP code. Both sets of inter-
rupt vectors feature an enable and status bit for each interrupt based device.
DSP Memory Controller
The DSP memory controller provides controls and decodes for the regular DSP data and code RAMs as well as the
code ROMs. The Memory Controller also includes a patch mechanism to allow ROM code to be updated or fixed using
a trapping device.
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SAA7785
SERIAL PORT INTERFACES
OVERVIEW
2
The SAA7785 chip will contain an S/PDIF Consumer Grade transmit port and an I S transmit/receive pair. These serial
ports are designed to exchange digital audio data but can be used for any type of data transfer assuming the bandwidth
is adequate. Currently, these ports are connected to the DSP data bus.
2
The Inter-IC Sound Bus, or I S Port, is a simple interface used to transfer digital data from one source to another. The
interface is based on a continuous serial clock that determines the data rate along with the word select line and the data
2
lines. An I S port can be a master or a slave device. A master device drives the serial clock and word select lines while
2
a slave device receives the clocking signals. The SAA7785 I S ports are independently programmable to be either a
master or a slave and for 32.0, 44.1 and 48.0KHz stereo data transfer.
Also included is a Sony/Philips Digital Interface Format, or S/PDIF, serial port. This interface is generally used to trans-
mit raw audio data but is also used to transfer AC-3 encoded data as well using DMA. The S/PDIF format is a synchro-
nous interface with the clock encoded on the data stream. The S/PDIF ports support 32.0, 44.1 and 48.0KHz stereo
data transfer up to 24 bits. The S/PDIF interface is IEC958 Consumer Grade compliant.
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SAA7785
2
FIGURE 4
I S SERIAL PORTS BLOCK DIAGRAM
Right Data
Left Data
Transmit
Shift
Register
XDATA
Transmit
Control
Logic
XSCLK
XWS
2
I S Ports
CCLK
Clock
Divider
RWS
Receive
Control
Logic
RSCLK
Left Data
Receive
Shift
Register
RDATA
Right Data
DSP DATA BUS
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SAA7785
FIGURE 5
S/PDIF TRANSMIT PORT BLOCK DIAGRAM
Audio Data Audio Data
Holding
Shift
Registers
Registers
Validity Bit
Generation
Aux Data
Holding
Registers
Aux Data
Shift
Registers
Ctl/Channel
Stat Holding
Registers
Ctl/Channel
Stat Shift
Registers
Bi-Phase
Mark
Encoder
Line
MUX
SPDO
Driver
User Data
Holding
Register
User Data
Shift
Register
S/PDIF XMT
Port Status
Register
S/PDIF XMT
Control
Preamble
Generation
Logic
CCLK
DCLK
S/PDIF XMT
Clock
Parity
Generation
Divider
VIRTUAL WRITE MASTER
Audio streams may be directed back to host memory from the DSP domain. The VWM has a data buffer capable of
storing enough audio data to burst into the host memory. The VWM is a simplified version of DMA and has more strin-
gent requirements on which and how many pages need to be allocated.
Using the VWM, the system programmer can redirect audio streams processed by the SAA7785 ThunderBird Aveng-
TM
er device and use them in any other audio device that resides in the system. The VWM is more efficient than the
DMA and should be the device of choice when redirecting audio streams back to the host. The device supports audio
sample rates from 8 to 48 KHz.
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SAA7785
Game Port
TM
The SAA7785 ThunderBird Avenger Game Port interface is designed to emulate the PC-AT based legacy joystick
operation as well as support of a digital joystick mode. The legacy or analog, type of operation is designed to support all
legacy software that uses the original joystick address and the method for resolving the joystick axes positions. The
Digital Mode is designed to reduce the joystick overhead by resolving the joystick position directly and to support appli-
cations that use DirectInput.
The legacy joystick used a one shot multi-vibrator on each of the four joystick potentiometers. These one shots were
set up to deliver a pulse that was proportional to the resistor value of the joystick potentiometers. Software would them
poll the one shots to see if they had been set to the original value. The time it took for each axes to return to the original
TM
value was resolved into a position by the legacy software. The SAA7785 ThunderBird Avenger emulates the 558
based one shot circuit to support legacy games that use the PC-AT joystick. The joystick button values were routed
directly to the system bus where only a decode was required to read the value of the button. Software would poll the
buttons as well. All button and joystick axes data is returned in a single byte wide register.
Game Port Legacy I/O Register
This register is the legacy mode register for the 558 based joystick. When in “analog” mode, this register is aliased to
respond to addresses at base + (0-7) . Reads from this register will poll the status of the joystick buttons and are used
to resolve the position. Writes to this register will discharge the external capacitors to emulate the 558 one shots. Soft-
ware can then poll the joystick register bit to resolve each of the joystick axes positions by timing. The joystick button
register bits have meaning in both the digital and analog modes. The axes bits are only valid for analog mode.
TABLE 3
Game Port 558-Based Register - GAMEPORT (RO)
I/O GMBASE
Offset 1h
D7
JOYB_2
1
D6
JOYB_1
1
D5
JOYA_2
1
D4
JOYA_1
1
D3
JOYB_Y
0
D2
JOYB_X
0
D1
JOYA_Y
0
D0
JOYA_X
0
POR Value
Bit
Name
R/W
Function
7
JOYB_2
RO
Joystick B button 2 status. The joystick button status bits are cleared when
the respective joystick button is pressed.
6
5
4
3
2
1
0
JOYB_1
JOYA_2
JOYA_1
JOYB_Y
JOYB_X
JOYA_Y
JOYA_X
RO
RO
RO
RO
RO
RO
RO
Joystick B button 1 status.
Joystick A button 2 status.
Joystick A button 1 status.
Joystick B y-coordinate. Can also be referred to as position 3.
Joystick B x-coordinate. Can also be referred to as position 2.
Joystick A y-coordinate. Can also be referred to as position 1.
Joystick A x-coordinate. Can also be referred to as position 0.
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SAA7785
SAA7785 SIGNAL DEFINITIONS
PCI LOCAL BUS INTERFACE SIGNALS
AD[31:0]
PCI Address/Data
AD[31:0] contains a physical byte address during the first clock of a PCI transaction, and data
during subsequent clocks.
When the SAA7785 is a PCI master, AD[31:0] are outputs during the address phase of a trans-
action. They are either inputs or outputs during the data phase, depending on the type of PCI
cycle in process.
When the SAA7785 is a PCI slave, AD[31:0] are inputs during the address phase. They are
either inputs or outputs during the data phase, depending on the type of PCI cycle in process.
C/BE#[3:0]
DEVSEL#
PCI Bus Command and Byte Enables
C/BE#[3:0] defines the bus command during the first clock of a PCI transaction, and the byte
enables during subsequent clocks.
C/BE#[3:0] are outputs when the SAA7785 is a PCI bus master and inputs when it is a PCI bus
slave.
PCI Bus Device Select
When the SAA7785 is a PCI bus master the SAA7785 uses DEVSEL# to determine whether a
master abort should occur if DEVSEL# is not sampled active by clock 5 of the transaction, or to
determine whether a cycle is to be aborted or retried when a target-initiated termination occurs.
When the SAA7785 is a PCI bus slave, DEVSEL# is an output which the SAA7785 drives LOW
during the second PCLK after FRAME# assertion to the end of a transaction if the SAA7785 is
selected.
FRAME#
PCI Bus Cycle Frame
When the SAA7785 is a PCI master, FRAME# is an output which indicates the beginning of a
SAA7785-initiated bus transaction. While FRAME# is asserted data transfers continue. When
FRAME# is deasserted the transaction is in the final data phase.
When the SAA7785 is a PCI slave, FRAME# is an input that initiates an I/O, memory or config-
uration register access if the SAA7785 is selected for the transaction. The SAA7785 latches the
C/BE#[3:0] and AD[31:0] signals on the PCLK edge on which it first samples FRAME# active.
IRDY#
PCI Bus Initiator Ready
When the SAA7785 is a PCI master, IRDY# is an output which indicates the SAA7785’s ability
to complete the data phase of the current transaction. It is always asserted from the PCLK
cycle after FRAME# is asserted to the last clock of the transaction.
When the SAA7785 is a PCI slave, IRDY# is an input which causes the SAA7785 to hold-off
completion of a read or write cycle until sampled active.
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SAA7785
STOP#
TRDY#
PCI Bus Stop (Target Initiated Termination)
When the SAA7785 is a PCI master, STOP# is an input which causes the SAA7785 to com-
plete, abort or retry the transfer, depending on the state of TRDY# and DEVSEL#.
When the SAA7785 is a PCI slave, it drives STOP# as active (LOW) to terminate or retry a
transaction.
PCI Bus Target Ready
When the SAA7785 is a PCI master, TRDY# is an input which indicates the target agent’s abil-
ity to complete the data phase of the transaction. After initiation of a PCI bus transaction, the
SAA7785 inserts wait cycles until TRDY# is sampled active.
When the SAA7785 is a PCI slave, it drives TRDY# active to indicate that the SAA7785 has
sampled the data from AD[31:0] during a write phase, or presented valid data on AD[31:0] dur-
ing a read phase.
PAR
PCI Bus Parity
When the SAA7785 is a PCI master, it drives PAR to reflect the correct value for even parity on
the AD[31:0] and C/BE#[3:0] buses one clock after the address phase and after each write data
phases.
When the SAA7785 is a PCI slave, it drives PAR to reflect the correct value for even parity on
the AD[31:0] and C/BE#[3:0] buses one clock after completion of each read data phase.
PCREQ#
PC/PCI DMA Request
This signal requests DMA series from an external chipset that supports PC/PCI protocols. The
SAA7785 chip asserts PCGNT# according to the desired DMA channel required by either the
SoundBlaster or AC97 interfaces. The requested channel is encoded serially on the PCGNT#
pin.
The SAA7785 will become the bus owner when it receives an asserted PCGNT# signal. This
handshaking is synchronous to PCLK.
PCGNT#
REQ#
PC/PCI DMA Grant
An asserted PCGNT# pin indicates that the external PC/PCI master arbiter has granted DMA
services to the encoded DMA channel to the requesting DMA agent on the SAA7785 chip.
PCI Bus Request
This signal controls the PCI bus arbitration between the SAA7785 chip and the PCI master
arbiter. When REQ# is asserted, the SAA7785 indicates a desire to become the PCI bus owner.
The SAA7785 will become the bus owner when it receives an asserted grant signals (GNT# is
LOW). This handshaking is synchronous to PCLK.
REQ# is three-stated while RST# is active.
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SAA7785
GNT#
PCI Bus Grant
An asserted GNT# pin indicates that the PCI master arbiter has granted bus ownership to the
SAA7785 chip.
INTA#
PCI Bus Interrupt A
The interrupt output is a PCI compatible active low level sensitive interrupt. It is only used if the
SAA7785 is used in a non Common Architecture system. Otherwise it is tri-stated. It is driven
low when any of the internal interrupts are asserted.
PERR#
SERR#
IDSEL
PCI Bus Parity Error
This signal indicates a data parity error for any cycle type other than a Special Cycle command.
PERR# is made active two clocks after the completion of the data phase which caused the par-
ity error. This error signal may result in the generation of a non-maskable interrupt (NMI) or
other high priority interrupt sent to the CPU.
PCI Bus System Error
This signal indicates an address parity error, data parity errors on Special Cycle commands or
any other catastrophic system error. SERR# is an open-drain bidirectional pin which is driven
low for a single PCLK cycle by the agent reporting the error. This error may result in the gener-
ation of a non-maskable interrupt (NMI) or other high priority interrupt sent to the CPU.
Initialization Device Select
IDSEL is used as a chip select during configuration register read and write operations. One
system board address line from AD[31:11] is used as IDSEL to select the SAA7785 configura-
tion space in the SAA7785 chip when used on the PCI bus.
CLKRUN#
PCLK
PCI Bus Clock Run Request
The SAA7785 uses CLKRUN# according to the Mobile PCI protocol to start the PCI clock or
keep the clock running whenever an internal PCI device requires it.
PCI Bus Clock Input
PCLK is the PCI bus clock input. It is used to synchronize all PCI bus operations and typically
runs at 33MHz.
RST#
PCI Bus Reset
An active low version of the system reset, this signal causes the PCI interface to return to the
idle states in all state machines and asynchronously three-states all PCI bus signals. All regis-
ters will be reset to their default values as well. The CODEC interface line should be all driven
inactive along with the external memory interface. This reset will assert the DSP reset.
PME#
PCI Bus Power Management Event
Reserved.
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SAA7785
PCI GENERAL PURPOSE I/O
PGPIO[7:0]
PCI General Purpose Input/Outputs
These eight pins are used as controls or data to devices external to the SAA7785 chip. Each
are independently controlled.
TEST INTERFACE/SERIAL CONFIGURATION PORT
NAND#/CFG-
DAT
NAND Tree Test Enable/Serial Configuration Data
When this pin is pulled low and RST# is pulsed asserted, all output and I/O pins of the
SAA7785 will be forced into a three-state condition. Pulsed assertion of the RST# signal will
release the SAA7785 from this test mode.
If this pin is pulled high during PCI reset, then it is used to shift in PCI configuration data for the
Subsystem ID and the Subsystem Vendor ID in each of the PCI configuration headers present
2
in the SAA7785 chip. The Serial Configuration Port is a standard I C interface. This line should
never be pulled low.
TRI#/CFGCLK
Tri-State Test Enable/Serial Configuration Clock
When this pin is pulled low and RST# is pulsed asserted, the SAA7785 will enter the parametric
NAND tree test mode. The details of the NAND tree test mode are described later in this docu-
ment.
If this pin is pulled high during PCI reset, then this pin will supply the serial 400 KHz clock,
derived from OSC, to an external serial EEPROM. CFGCLK is used to synchronize the serial
configuration data.
GAME PORT INTERFACE
JACX
JACY
JBCX
JBCY
JAB2
Joystick A X Axis
This pin functions as an input for the joystick A X-position axis.
Joystick A Y Axis
This pin functions as an input for the joystick A Y-position axis.
Joystick B X Axis
This pin functions as an input for the joystick B X-position axis.
Joystick B Y Axis
This pin functions as an input for the joystick B Y-position axis.
Joystick A Button 2 Interface
This pin functions as an input for the joystick A button 2.
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SAA7785
JAB1
JBB2
JBB1
Joystick A Button 1 Interface
This pin functions as an input for the joystick A button 1.
Joystick B Button 2 Interface
This pin functions as an input for the joystick B button 2.
Joystick B Button 1 Interface
This pin functions as an input for the joystick B button 1.
MIDI INTERFACE
MIDIIN
MIDI Serial Data Input
This signal is part of the standard 2 wire MIDI interface. This input receives MIDI data at a rate
of 31.25Kbaud. Optical isolation is required.
MIDIOUT
MIDI Serial Data Output
This signal is part of the standard 2 wire MIDI interface. This output transmits MIDI data at a
rate of 31.25Kbaud. Optical isolation is required.
AC’97 CODEC INTERFACE
SYNC
AC’97 Codec Synchronization/Frame Output
This signal is used to frame the tag packet from the AC link designer from the SAA7785 chip.
BIT_CLK
AC’97 Data Bit Clock
This signal is used to clock synchronous data on the AC link interface.
SDATA_OUT
SDATA_IN0
AC’97 Serial Data Out
This is the time division multiplexed serial output data stream from the SAA7785 controller.
AC’97 Serial Data In Port 0
This is the time division multiplexed serial input data stream from the primary external AC’97
codec.
SDATA_IN1
AC’97 Serial Data In Port 1
This is the time division multiplexed serial input data stream from the secondary external AC’97
codec.
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SAA7785
AC_RST_N#
AC’97 Master Reset
The external AC’97 codec has a master reset line which is has a separate control. The codec
status must report a ready before any audio or modem data is transmitted to the codec.
DSP SERIAL PORTS/GENERAL PURPOSE I/O
SPDO
Sony/Philips Digital Interface Format Output Port
Consumer format S/PDIF Output Port. The output characteristic of this pad approximates the
RS422 interface.
SPDI
RWS
Sony/Philips Digital Interface Format Input Port
Reserved.
Inter-IC Sound Bus Receive Port Word Select Clock/DSP General Purpose I/O 0
2
When the I S is configured as a master, this pin will output a word clock at the frequency
selected by the user. When configured as a slave, the receive port will synchronize the left or
right channel data to this signal.
RSCK
Inter-IC Sound Bus Receive Port Bit Clock/DSP General Purpose I/O 1
2
When the I S is configured as a master, this pin will output a bit clock. When configured as a
slave, the receive port will shift in data from the RSD data stream using RSCK as an input.
RSD
TWS
Inter-IC Sound Bus Receive Port Data/DSP General Purpose I/O 2
2
This pin is the input data stream for the I S receive port.
Inter-IC Sound Bus Transmit Port Word Select Clock
2
When the I S is configured as a master, this pin will output a word clock at the frequency
selected by the user. When configured as a slave, the receive port will synchronize the left or
right channel data to this signal.
TSCK
TSD
Inter-IC Sound Bus Transmit Port Bit Clock
2
When the I S is configured as a master, this pin will output a bit clock. When configured as a
slave, the transmit port will shift out data from the TSD data stream using TSCK as an input.
Inter-IC Sound Bus Transmit Port Data
2
This pin is the output data stream for the I S transmit port.
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SAA7785
PLL/DSPCLK SUBSYSTEM INTERFACE
CCLK
CODEC Clock Input
This pin is the raw 24.576MHz clock from the AC’97 crystal. The CCLK clock is used to provide
a fixed time base for many functions within the SAA7785 device.
DSPCLK
DSP Clock Input
This pin can be used as the clock input for the SAA7785 for the DSP subsystem in place of the
PLL driving the clock. DSPCLK is also used to drive the DSP subsystem for controllability dur-
ing testing.
PSUB
PLL Substrate
This pin supplies the bias for the guard ring on the PLL core. Connect this to a clean analog
supply ground.
PLLAPWR
PLLAGND
PLL Analog Power
Analog power supply for the PLL. Be sure the analog supply is isolated from the 3 volt digital
supply.
PLL Analog Ground
Analog ground for the PLL. This power supply is sensitive to noise and should be handled care-
fully.
POWER AND GROUND PINS
VDDIC
VSSIC
VSS
Core Power
3 volt power supply for the core of the chip.
Core Ground
Ground reference for the core of the chip.
Ring Ground
Ground reference for the pad interfaces of the chip.
Ring Power
VDD
3 volt supply for the pad interfaces of the chip.
External N-Well Bias
NWELL
Tie these pins to 5v for proper 5 volt tolerant operation. The 5v supply must be powered up
before the 3v supply. Likewise, the 3v supply must be powered down before the 5v supply.
PLEASE READ THE CAUTIONS IN Section 4.1, POWER SUPPLY OPERATING REQUIRE-
MENTS ***** MUST READ *****
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SAA7785
DSP EXTERNAL MEMORY INTERFACE
MA[14:0]
External Memory Address
Address lines for the external SRAM devices. The external memory interface can be used for
DSP code space if the EXT_SRAM_EN (in HDCFG, bit 5) is set. Otherwise, the DSP will use
internal ROM as the code source.
MD[15:0]
MCS#
External Memory Data Bus
Word wide data bus for the external SRAM. Use 6ns memory for maximum DSP performance.
External Memory Chip Select
Chip select line for the external SRAM devices.
MWE#
External Memory Read/Write Control
Selects the external SRAM for reading or writing.
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SAA7785
SAA7785 ThunderBird Avenger™ Functional Block Descriptions
Register Table Document Description and Example
The next table gives an example of how registers are documented in this specification.
TABLE 4
Example Register - REGEX (RW/RO)
SPACE
D15
R
D14
R
D13
R
D12
R
D11
R
D10
R
D9
R
D8
R
Offset nnh
POR Value
0
0
0
0
0
0
0
0
D7
D6
D5
D4
D3
D2
D1
D0
EXDATA[7:0]
POR Value
Bit
0
0
0
0
0
0
0
0
Name
R/W
RO
Function
15:8
7:0
R
Reserved. These bits always return zeros.
Example data. The example data for all to see.
EXDATA
RW
In the above table example, the EXAMPLE REGISTER text would be a descriptive title for the register that we wish to
detail. Following the register description would be a register mnemonic used in register summary tables and the like. In
this example the mnemonic is REGEX. Following the mnemonic is the read/write access allowed into this register. If the
entire register is readable and writable, then the RW key is assigned. If some bits are read/write while others are read
only, then the key will indicate this fact. In the example, this register has both read/write and read only bits. The register
memory map location is marked in the table cell marked SPACE. SPACE could be substituted with PCI CFG n (for PCI
configuration register space for function n), IOBASE (for an I/O space register with an IOBASE specified in a configura-
tion register), DSP DATA (for DSP data memory mapped registers), MEM MSTR (indicating a PCI master in memory
space), and DSP CODE (indicating a DSP code memory mapped register. Just below the SPACE marker is the offset
from the base address specified in the SPACE field. The rest of the table should be obvious.
SAA7785 ThunderBird Avenger™ PCI Interface
Overview
The SSA7785 ThunderBird Avenger™ chip PCI interface is designed to interface the external PCI bus interface to all of
the selected devices in the SSA7785 ThunderBird Avenger™ chip. The PCI interface composed of master and slave
state machines, an address/data/byte enable datapath, a bus arbiter for the two on chip masters, control logic for the
master and slave internal busses, and standard PCI configuration register headers. The Interrupt Serializer will be dis-
cussed in a later chapter. This section of the specification will describe the PCI interface in more detail along with
design considerations for both the slave, master, and datapath. The configuration header will be discussed in the
SSA7785 ThunderBird Avenger™ PCI Configuration Registers section of this specification.
The discussion will begin with the PCI master and target systems. The PCI bus master has the capability to burst dou-
ble words to/from the two internal bus masters, the Distributed DMA and the Virtual Registers. The full address range is
supported for these master devices. Since there are two masters, an arbiter is required to determine priority between
the two devices. Details on the arbiter can be found in the PCI master section.
1999 Nov 12
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Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
The PCI datapath block contains the multiplexors and registers to steer the data to and from the PCI interfaces. The
data is de-multiplexed from the external PCI interface to the internal master and slave busses. Control logic from the
master and slave devices control the datapath.
The SSA7785 ThunderBird Avenger™ is considered a multi-function device since the operating system may wish to
load different drivers for certain functions. These functions are the audio subsystem, the joystick and the 16650 UART.
Each of these major functions must have a separate PCI configuration space. The standard PCI configuration header
for these three functions are supported in the PCI interface.
The SSA7785 ThunderBird Avenger™ PCI interface responds to and initiates PCI cycles with positive decoding
according to the PCI 2.1 specification. The interface asserts DEVSEL# after the first clock following FRAME# making it
a medium responder. For specific LAM cycles, the SSA7785 ThunderBird Avenger™ will be a fast responder. SSA7785
ThunderBird Avenger™ indicates which cycles the PCI interface responds to or initiates.
TABLE 5
PCI Bus Command Definitions and SSA7785 ThunderBird Avenger™ Responses
c/be#[3:0]
Command Type
SSA7785 ThunderBird Avenger™ Response to Cycle
0000
0001
0010
Interrupt Acknowledge
Special Cycle
This cycle is not claimed.
This cycle is not claimed.
I/O Read
All I/O Read cycles directed to the SSA7785 ThunderBird
Avenger™ are claimed by the target interface.
0011
I/O Write
All I/O Write cycles directed to the SSA7785 ThunderBird
Avenger™ are claimed by the target interface.
0100
0101
0110
0111
1000
1001
1010
Reserved
This cycle is not claimed.
This cycle is not claimed.
This cycle is not claimed.
This cycle is not claimed.
This cycle is not claimed.
This cycle is not claimed.
Reserved
Memory Read
Memory Write
Reserved
Reserved
Configuration Read
All Configuration Read cycles are claimed by the target interface
provided IDSEL is sampled asserted during the address/cmd
phase.
1011
Configuration Write
All Configuration Write cycles are claimed by the target interface
provided IDSEL is sampled asserted during the address/cmd
phase.
1100
1101
Memory Read Multiple
Dual Address Cycle
This cycle is not claimed.
The SSA7785 ThunderBird Avenger™ supports 32-bit
addresses only.
1110
1111
Memory Read Line
This cycle is not claimed.
This cycle is not claimed.
Memory Write and Invalidate
The SSA7785 ThunderBird Avenger™ will respond to byte, word, tri-byte or double word access for configuration read
and configuration write cycles provided PCI addressing rules are followed. Byte and word width accesses allowed for
I/O cycles depend largely on the target I/O device. In general, 24-bit and 32-bit accesses are not allowed to I/O devices
and will result in a target abort. The SSA7785 ThunderBird Avenger™ performs double word accesses when initiating
1999 Nov 12
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Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
master cycles. Note that the SSA7785 ThunderBird Avenger™ cannot initiate a master cycle to itself. SSA7785 Thun-
derBird Avenger™ summarizes the access rules for configuration and I/O cycles.
TABLE 6
BIT Width Device Access Rules
Data
Device
Cycle Types
Width
Comments
PCI Configuration
Registers
Config Read
Config Write
Any
Follow PCI addressing rules, otherwise assert a target abort.
Note that configuration registers, no matter where they are,
are accessed by configuration cycles only. Note that the PLL
will only allow 8 bit configuration accesses, the Virtual Regis-
ters TBLBASE registers are 32 bit access only, and the
VRCFG is 16 bit access only.
Game Port
I/O Read
I/O Write
I/O Read
I/O Write
I/O R/W
8
Any other access will result in a target abort.
AC’97 Codec
DMA Interface
16
For PIO type accesses, only 16 bit I/O cycles are allowed,
other wise a target abort will result.
Any
8
Sound Blaster Regis- I/O Read
ters
Any other access will result in a target abort.
Follow PCI addressing rules.
I/O Write
Virtual Registers
Mem Read
I/O Read
I/O Write
Any
Host/DSP Interface
8,16
Usually, only 16 bit accesses will be used to download and
access the DSP. Byte wide are also allowed for DSP config-
uration accesses. Word accesses must be on word bound-
aries.
MPU401 Registers
16650 UART
I/O Read
I/O Write
I/O Read
I/O Write
8
8
Any other access will result in a target abort.
Any other access will result in a target abort.
The PCI interface consists of three major blocks, the PCI master interface, the PCI slave interface and the PCI datap-
ath. The PCI master interface contains the master state machine, the master control logic, and the PM bus arbiter. The
PCI slave interface contains the target state machine, the target control logic and configuration register headers. The
PCI datapath is the de-multiplexing logic for the address, data and byte enable data paths for the PS and PM busses.
The PM and PS busses are described in detail in the SSA7785 ThunderBird Avenger™ Internal Busses section. Parti-
tioning of these PCI blocks are done in this manner to reduce block inter-connectivity and to provide an interface
between the three major sections of the PCI interface.
PCI Master Interface
The SSA7785 ThunderBird Avenger™ PCI master interface performs the memory read and write cycles initiated by the
DMA or Virtual Registers blocks. The major components of the PCI master interface are the master state machine, the
PM bus arbiter and the master control logic. Each of the functional blocks will be discussed in detail.
1999 Nov 12
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Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
PCI Master State Machine
This block will performs the handshaking between the PCI interface and the PM internal bus. The PCI master will per-
form bursting in a linear incrementing type fashion. The PCI master state machine may also wish to provide a target
lockout signal. This signal prevents the PCI target interface from responding to any master signals.
PC/PCI Legacy Support
The PCI block supports the PC/PCI sideband signals for legacy support of the soundblaster. The PC/PCI can be
enabled by a configuration register bit and one channel selected. The PCI slave block will provide the serial encoded
request signal (PCREQ#) in response to a request from the soundblaster and decode the serial encoded PCGNT# line.
The PCI slave will then claim I/O writes to address 0000h or 0004h with the PCGNT# line asserted as writes to the
SoundBlaster and pass the data to the SoundBlaster.
PCI Target State Machine
The PCI target state machine controls all SSA7785 ThunderBird Avenger™ target responses on the PCI bus in addition
to handling the PS internal bus.
PCI Target Control Logic
The target control logic handles the address decoding for the ps_NNNcs# signals, bus command decoding for the
ps_XXXrd# and ps_XXXwr# signals, determination of target abort conditions, and data path/pad control logic from the
target interface. Also included in this logic are the controls for the PCI datapath and I/O pads. These controls are sent to
the datapath logic where they are combined with the master controls and then sent to the datapath and pad devices.
The control logic also includes an interface to the PCI configuration headers.
Serial Configuration Port
The Subsystem Vendor ID and Subsystem ID for each of the configuration headers presents a special case. These
three 32 bit registers must be programmed by the Subsystem Vendor. It is impractical to hard wire the Subsystem ID
registers since each Subsystem Vendor will have a unique ID. Therefore an external serial EEROM device is used to
download the proper values into the ID registers after reset and before begin read by the BIOS or other configuration
software. The PCI interface should force a retry if any of the subsystem registers have not completed a loading. The
2
Serial Configuration Port is a standard two pin I C interface. The ThunderBird Q3DIII will supply the 400 KHz clock to
the external serial EEPROM on the CFGCLK pin. The serial data stream will arrive on the CFGDAT input pin. Please
2
refer to a 24LC00 128 bit I C Bus Serial EEPROM data sheet for interface protocols and timings.
Serial Configuration Port Programming
The SSA7785 ThunderBird Avenger™ uses an inexpensive external EEPROM, programmed before installation, to
download the Subsystem Vendor ID and Subsystem ID registers for each function for a total of 96 bits (six 16 bit regis-
ters). The recommended device, a Microchip 24LC01B 1K Bit (128 Byte) Serial EEPROM, can be programmed using a
conventional DATA I/O programmer.
+5V
CFGDAT
ThunderBird
CFGCLK
SDA
WP
EEPROM
SCL
1999 Nov 12
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Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
FIGURE 6
In each of the three SSA7785 ThunderBird Avenger™ functions PCI configuration space there is a Subsystem Vendor
ID register at an offset of 2Ch and a Subsystem ID register at an offset of 2Eh. Each register is 16 bits in length and is
write-only by the serial EEPROM and read-only from the PCI interface. The data from the EEPROM is loaded into the
registers immediately after PCI reset. If no EEPROM is detected, the default values are loaded and shown in SSA7785
ThunderBird Avenger™ and reflect the default values for the System ID and Vendor ID for that function.
TABLE 7
Subsystem Register Default Values
Function
Device Type
Offset
Register Name
Default Value
0
0
1
1
2
2
Audio Subsystem
Audio Subsystem
Joystick
2Ch
2Eh
2Ch
2Eh
2Ch
2Eh
Subsystem Vendor ID
Subsystem ID
1004h
0304h
1004h
0305h
1004h
0306h
Subsystem Vendor ID
Subsystem ID
Joystick
16650 UART
16650 UART
Subsystem Vendor ID
Subsystem ID
The EEPROM contains bits 000h through 3FFh. Only bits 000h through 05Fh are utilized to program the Subsystem ID
and Subsystem Vendor ID registers. The bit assignments between the EEPROM and the configuration registers are
shown in SSA7785 ThunderBird Avenger™.
TABLE 8
EEPROM BIT Assignments to Subsystem Registers
Function 0 - Audio Subsystem
Function 1 - Joystick
Function 2 - 16650 Modem UART
SubsystemVendor
ID - Offset 2Ch
Subsystem ID -
Offset 2Eh
SubsystemVendor
ID - Offset 2Ch
Subsystem ID -
Offset 2Eh
SubsystemVendor
ID - Offset 2Ch
Subsystem ID -
Offset 2Eh
EEPROM
Bit #
Reg
Bit #
EEPROM
Bit #
Reg
Bit #
EEPROM
Bit #
Reg
Bit #
EEPROM
Bit #
Reg
Bit #
EEPROM
Bit #
Reg
Bit #
EEPROM
Bit #
Reg
Bit #
000h
001h
002h
003h
004h
005h
006h
007h
008h
009h
00Ah
00Bh
00Ch
00Dh
00Eh
15
14
13
12
11
10
9
010h
011h
012h
013h
014h
015h
016h
017h
018h
019h
01Ah
01Bh
01Ch
01Dh
01Eh
15
14
13
12
11
10
9
020h
021h
022h
023h
024h
025h
026h
027h
028h
029h
02Ah
02Bh
02Ch
02Dh
02Eh
15
14
13
12
11
10
9
030h
031h
032h
033h
034h
035h
036h
037h
038h
039h
03Ah
03Bh
03Ch
03Dh
03Eh
15
14
13
12
11
10
9
040h
041h
042h
043h
044h
045h
046h
047h
048h
049h
04Ah
04Bh
04Ch
04Dh
04Eh
15
14
13
12
11
10
9
050h
051h
052h
053h
054h
055h
056h
057h
058h
059h
05Ah
05Bh
05Ch
05Dh
05Eh
15
14
13
12
11
10
9
8
8
8
8
8
8
7
7
7
7
7
7
6
6
6
6
6
6
5
5
5
5
5
5
4
4
4
4
4
4
3
3
3
3
3
3
2
2
2
2
2
2
1
1
1
1
1
1
1999 Nov 12
31
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
Function 0 - Audio Subsystem
Function 1 - Joystick
Function 2 - 16650 Modem UART
SubsystemVendor
ID - Offset 2Ch
Subsystem ID -
Offset 2Eh
SubsystemVendor
ID - Offset 2Ch
Subsystem ID -
Offset 2Eh
SubsystemVendor
ID - Offset 2Ch
Subsystem ID -
Offset 2Eh
EEPROM
Bit #
Reg
Bit #
EEPROM
Bit #
Reg
Bit #
EEPROM
Bit #
Reg
Bit #
EEPROM
Bit #
Reg
Bit #
EEPROM
Bit #
Reg
Bit #
EEPROM
Bit #
Reg
Bit #
00Fh
0
01Fh
0
02Fh
0
03Fh
0
04Fh
0
05Fh
0
These bits correspond to Function 0, Subsystem ID (offset 2Eh) bits 2, 1, and 0, respectively. The Vendor should
choose and ID that corresponds to the peripherals present and program the EEPROM accordingly.
PCI Datapath
The PCI datapath provides the flip flops to convert the external PCI interface address, data, command and byte enables
busses to the internal PM and PS busses.
PCI Configuration Register
Since the SSA7785 ThunderBird Avenger™ is a multi-function device, there are three configuration headers. They are
defined as the audio configuration header as function 0, the joystick configuration header as function 1, and the UART
configuration header defined as function 2. Each configuration space is divided up into two groups, the registers that
stay with the PCI interface and the registers that do not. This section will describe the PCI configuration registers that
bunk with the PCI interface. These registers include the PCI standard configuration header registers and the base
address registers for various blocks in the SSA7785 ThunderBird Avenger™ chip.
To be more specific, the registers in the offset config space from 00h - 3Fh are the predefined PCI configuration header.
All three PCI configuration header registers will reside with the PCI interface. The remainder of the registers are func-
tion specific and can be found in the block section itself.
The following sections will detail each of the configuration header spaces for each of the SSA7785 ThunderBird
Avenger™ functions: audio, joystick and UART.
PCI Configuration Space 0
The following table is a summary of all the PCI configuration space registers. The registers that are block-mates with
the PCI interface (offset 00h - 44h) will be detailed following SSA7785 ThunderBird Avenger™. The remainder of the
registers will be detailed with the blocks they control.
TABLE 9
Byte 3
PCI Configuration Space 0 Register Map
Byte 2 Byte 1
Device ID
Status
Byte 0
Vendor ID
Command
Offset
00h
04h
Class Code
Revision ID
08h
BIST
Header Type
Master Latency Timer
SONGBASE
Cache Line Size
0Ch
10h
SBBASE
MDBASE
ALBASE
Reserved
14h
18h
1Ch
20-2Bh
1999 Nov 12
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Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
SUBSYSTEM ID
SUBSYSTEM VENDOR ID
2Ch
Reserved
Reserved
30-3Bh
Max_Lat
Min_Gnt
Interrupt Pin
Interrupt Line
3Ch
40h
DMABBASE
DMAABASE
44-57h
58h
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
MSCCFG
ACLCFG0
5Ch
60h
VRCFG
HDCFG
Reserved
TIMRCFG0
64h
68h
Reserved
Reserved
6Ch
70h
Reserved
Reserved
DMACFG
74-77h
78h
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
DPLLCTL0
DPLLCTL1
DPLLCTL2
7Ch
80h
Reserved
84-87h
88h
Reserved
Reserved
Reserved
TESTCTL0
Reserved
TBLBASE0
TBLBASE1
TBLBASE2
TBLBASE3
8C-8Fhh
90h
94h
98h
9Ch
A0h
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
IRQCTL0
IRQCTL1
IRQCTL2
IRQCTL3
IRQCTL4
IRQCTL5
IRQCTL6
IRQCTL7
COMARCH0
A4h
A8h
ACh
B0h
B4h
B8h
BCh
C0h
C4-EFh
F0h
Reserved
DMAACCNT
DMABCCNT
DMAACADR
DMABCADR
F4h
DMAMASK
Reserved
DMACMD
Reserved
DMAAMODE
DMABMODE
Reserved
Reserved
F8h
FCh
TABLE 10
PCI CFG 0
Offset 00h
POR Value
Vendor ID Register - VENDOR_ID (RO)
D15
D14
D13
D12
D11
D10
D9
D8
VENDOR_ID[15:8]
0
0
0
1
0
0
0
0
1999 Nov 12
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Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
D7
D6
D5
D4
D3
D2
D1
D0
VENDOR_ID[7:0]
0
0
0
0
0
1
0
0
POR Value
Bit
Name
R/W
Function
15:0
VENDOR_ID
RO
The PCI Vendor ID for Philips Semiconductors (VLSI) is 1004h.
TABLE 11
PCI CFG 0
Offset 02h
POR Value
Device ID Register - DEVICE_ID (RO)
D15
D14
D13
D12
D11
D10
D9
D8
DEVICE_ID[15:8]
0
0
0
0
0
0
1
1
D7
D6
D5
D4
D3
D2
D1
D0
DEVICE_ID[7:0]
0
0
0
0
0
1
0
0
POR Value
Bit
Name
R/W
Function
15:0
DEVICE_ID
RO
The Device ID for the SSA7785 ThunderBird Avenger™, function 0 is 0304h.
TABLE 12
PCI CFG 0
Command Register - COMMAND (RO/RW)
D15
D14
D13
D12
D11
D10
D9
D8
R
R
R
R
R
R
FBACK_ SERR_R
Offset 04h
POR Value
ENB
0
ESP
0
0
0
0
0
0
0
D7
D6
D5
D4
D3
D2
D1
D0
STEP-
PING
PERR_
RESP
0
SNOOP_
ENB
MEM_
INV_EN
0
SPEC_
CNTL
0
MAST_
CNTL
0
MEM_
CNTL
0
IO_
CNTL
0
0
0
POR Value
Bit
Name
R/W
Function
15:10
R
RO
Reserved. These bits always return zero.
1999 Nov 12
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Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
Bit
Name
R/W
Function
9
FBACK_ENB
RO
Fast Back-to-Back Enable: the SSA7785 ThunderBird Avenger™, function 0
does not support fast back to back master cycles therefore this bit always
returns a zero.
8
SERR_RESP
RW
System Error Response: When set to 1, the SSA7785 ThunderBird
Avenger™, function 0 responds to detected PCI bus address parity errors by
asserting SERR#. When 0, the SSA7785 ThunderBird Avenger™ ignores
these errors.
7
6
STEPPING
RO
Address / Data Stepping: Always returns 0.
PERR_RESP
RW
Parity Error Response: When set to 1, the SSA7785 ThunderBird Avenger™,
function 0 responds to detected PCI bus data parity errors by asserting
PERR#. When 0, the SSA7785 ThunderBird Avenger™ ignores PCI bus data
parity errors.
5
SNOOP_ENB
RO
VGA Snoop Enable. The SSA7785 ThunderBird Avenger™, function 0 does
not support VGA snoop enable, therefore this bit always returns a zero.
4
3
MEM_INV_EN RO
Memory Write and Invalidate Enable: Always returns 0.
SPEC_CNTL
RO
Special Cycle Control: Controls the devices ability to respond to Special
Cycle Operations. A value of 0 causes the SSA7785 ThunderBird Avenger™,
function 0 to ignore all Special Cycles.
2
MAST_CNTL
RW
Master Control: Controls the devices ability to act as a master on the PCI bus.
A value of 0 disables the ability of the SSA7785 ThunderBird Avenger™,
function 0, to act as a primary PCI master. A value of 1 enables the Thunder-
Bird Q3DIII, function 0 to become a PCI bus master.
1
0
MEM_CNTL
IO_CNTL
RO
Memory Response Control: The SSA7785 ThunderBird Avenger™, function 0
does not support target memory cycles therefore this bit always returns a
zero.
RW
I/O Response Control: Controls the SSA7785 ThunderBird Avenger™, func-
tion 0’s response to I/O space. A value of 0 disables the device response. A
value of 1 allows the device to respond to I/O space accesses.
TABLE 13
PCI CFG 0
Status Register - Status (RO/RW)
D15
D14
D13
D12
D11
D10
D9
D8
R_PERR S_SERR
SM_
ABORT
0
RT_
ABORT
0
ST_
ABORT
0
DEVSEL_TMG
S_PERR
Offset 06h
POR Value
0
0
0
1
0
D7
D6
D5
D4
D3
D2
D1
D0
F_
BK2BK
1
UDF
MHz66
R
R
R
R
R
0
0
0
0
0
0
0
POR Value
1999 Nov 12
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Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
Bit
15
Name
R/W
Function
R_PERR
RC
Received Parity Error: When set to 1, this bit indicates that the SSA7785
ThunderBird Avenger™, function 0 has detected a PCI bus parity error at
least once since this bit was last reset.
14
S_SERR
RC
RC
RC
RC
RO
Signalled System Error: When set to 1, this bit indicates that the SSA7785
ThunderBird Avenger™, function 0 has reported a system error on the
SERR# signal at least once since this bit was last reset.
13
SM_ABORT
RT_ABORT
ST_ABORT
Signalled Master Abort: When set to 1, this bit indicates that the SSA7785
ThunderBird Avenger™, function 0 (acting as a master) had to initiate a mas-
ter abort at least once since this bit was last reset.
12
Received Target Abort: When set to 1, this bit indicates that the SSA7785
ThunderBird Avenger™, function 0 (acting as a master) has received a target
abort at least once since this bit was last reset.
11
Signalled Target Abort: When set to 1, this bit indicates that the SSA7785
ThunderBird Avenger™, function 0 has signalled a target abort at least once
since this bit was last reset.
10:9
DEVSEL_TM
G
DEVSEL Timing: This field indicates the timing of the DEVSEL output (when
a PCI master is accessing a SSA7785 ThunderBird Avenger™, function 0
resource). It always returns 01 (Bin).
00 = Fast
01 = Medium (Default Timing)
10 = Slow
8
7
S_PERR
F_BK2BK
RC
RO
Signalled Parity Error: When set to 1, this bit indicates that the SSA7785
ThunderBird Avenger™, function 0 was a bus master for a cycle in which
PERR# was activated. This bit cannot be set if the PERR_RESP bit in the
command register is not enabled.
Always returns 1 to indicate support of fast back to back cycles when the
SSA7785 ThunderBird Avenger™, function 0 is the target.
6
UDF
MHz66
R
RO
RO
RO
User Definable Features. Always returns 0.
66 MHzMHz Capable. Always returns 0.
Reserved. These bits always return zero.
5
4:0
Note: An RC indicates that this bit can be reset to 0 by writing a 1. Writing a zero leaves this bit unchanged.
TABLE 14
PCI CFG 0
Offset 08h
POR Value
Revision ID Register - REVISION (RO)
D7
D6
D5
D4
D3
D2
D1
D0
REVISION_ID[7:0]
0
0
0
1
1
0
0
1
1999 Nov 12
36
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
Bit
7:0
Name
R/W
Function
REVISION_ID
RO
The current revision ID for the SSA7785 ThunderBird Avenger™, function 0,
the audio subsystem.
TABLE 15
PCI CFG 0
Offset 09h
POR Value
Class Code Register - CLASS (RO)
D23
D22
D21
D20
D19
D18
D17
D16
BASE_CLASS[7:0]
0
0
0
0
0
1
0
0
D15
D14
D13
D12
D11
D10
D9
D8
SUB_CLASS[7:0]
0
0
0
0
0
0
0
1
POR Value
D7
D6
D5
D4
D3
D2
D1
D0
PGM_IFACE[7:0]
0
0
0
0
0
0
0
0
POR Value
Bit
Name
R/W
Function
23:16 BASE_CLASS RO
The base class of 04h describes a PCI multimedia device.
15:8
7:0
SUB_CLASS
PGM_IFACE
RO
RO
The sub class of 01h describes a PCI audio multimedia device.
Device generic function identification.
TABLE 16
PCI CFG 0
Offset 0Ch
POR Value
CACHELINE Size Register - CACHELINE (RO)
D7
D6
D5
D4
D3
D2
D1
D0
CACHELINE[7:0]
0
0
0
0
0
0
0
0
Bit
Name
CACHELINE
R/W
Function
7:0
RO
Reserved for cache line size indicator.
1999 Nov 12
37
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
TABLE 17
Master Latency Timer Register - LATIME (RW)
PCI CFG 0
Offset 0Dh
POR Value
D7
D6
D5
D4
D3
D2
D1
D0
LATIME[7:0]
0
0
0
0
0
0
0
0
Bit
Name
LATIME
R/W
Function
7:0
RW
The primary bus latency timer specifies the number of primary clocks that the
primary master may consume. The timer is reloaded at each assertion of
FRAME# by the primary master. If the primary master loses its bus grant,
then it must relinquish the bus after the timer expires.
TABLE 18
PCI CFG 0
Header Type Register - HEADER (RO)
D7
D6
D5
D4
D3
D2
D1
D0
MULTI_
HEADER[6:0]
Offset 0Eh
POR Value
FN
1
0
0
0
0
0
0
0
Bit
Name
R/W
Function
7
MULTI_FN
RO
A 1 indicates that the SSA7785 ThunderBird Avenger™ is a multi-function
device. The three PCI configuration headers are accessed by the configura-
tion cycle address bits 10-8. The function definitions are as follows:
0 = Audio Subsystem
1 = Joystick
2 = 16650 UART
6:0
HEADER
RO
Header Type. A 00h indicates this device is a not a PCI-to-PCI bridge.
TABLE 19
PCI CFG 0
Offset 0Fh
POR Value
BIST Register - BIST (RO)
D7
D6
D5
D4
D3
D2
D1
D0
BIST
START
R
R
CODE[3:0]
0
0
0
0
0
0
0
0
Bit
Name
BIST
R/W
Function
7
RO
BIST capable. BIST is not supported in the SSA7785 ThunderBird
Avenger™, function 0 at this revision. It may be desired to include a BIST test
for the DSP at a later time.
1999 Nov 12
38
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
Bit
Name
START
R/W
Function
6
RO
If BIST capable, this bit will start the BIST. Writing a 1 will start the test and
the BIST should write this bit to a zero when complete. Software should fail
the device if the BIST is not complete after 2 seconds.
5:4
3:0
R
RO
RO
Reserved. These bits always return zero.
CODE
Completion Code. A value of zero means the device has passed its test.
Non-zero values means the device has failed using device specific failure
codes.
SSA7785 ThunderBird Avenger™ CFG Space 0 Non-Legacy Base Address Registers
The Thunderbird Base Address Register (SONGBASE) is used to I/O map all of the non-legacy I/O devices in the
SSA7785 ThunderBird Avenger™ chip. The SONGBASE register maps the two DMA channels, the AC Link registers,
the Host/DSP interface, the Serial Port interfaces, and the Multimedia Timer. The offset index for each of the devices
are shown below: SSA7785 ThunderBird Avenger™ Non-Legacy I/O Device Map
Offset
Device Name
Byte 3
Byte 2
Byte 1
Byte 0
00h
04h
08h
0Ch
10h
14h
18h
1Ch
20h
24h
28h
2Ch
30h
34h
38h
3Ch
40h
44-7Fh
TMCOUNT2
Reserved
Reserved
Reserved
TMCOUNT1
Reserved
Reserved
Reserved
TMCOUNT0
Reserved
Reserved
Reserved
TMSTAT
Reserved
Reserved
Reserved
Multimedia Timer
Reserved
Reserved
Reserved
Reserved
Reserved
HDPCTL
HDDLA
Reserved
Reserved
Reserved
HDDATA
HDPSTT
HDDLD
Serial Ports
Host/DSP Interface
AC Link Interface
Reserved
Reserved
ACDATA
ACSTAT
Reserved
ACADDR
ACCTRL
ACPCML
ACPCMR
Serial IRQ
Reserved
Reserved
Reserved
IRQCTL
Thunderbird Reserved
Reserved
TABLE 20
PCI CFG 0
Offset 10h
POR Value
ThunderBird Base Address Register - Songbase (RW/RO)
D31
D30
D29
D28
D27
D26
D25
D24
SONGBASE[31:24]
0
0
0
0
0
0
0
0
1999 Nov 12
39
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
D23
D22
D21
D20
D19
D18
D17
D16
SONGBASE[23:16]
0
0
0
0
0
0
0
0
POR Value
POR Value
D15
D14
D13
D12
D11
D10
D9
D8
SONGBASE[15:8]
0
0
0
0
0
0
0
0
D7
D6
D5
D4
D3
D2
D1
D0
SONG
BASE[7]
0
R
R
R
R
R
R
IO
0
0
0
0
0
0
1
POR Value
Bit
Name
R/W
Function
31:7
SONGBASE
RW
Thunderbird non-legacy device base address register. This register supplies
the I/O base address for the non-legacy I/O devices within the SSA7785
ThunderBird Avenger™ chip.
6:1
0
R
RO
RO
Reserved. These bits are reserved a must always return a zero for plug and
play.
IO
I/O flag. This read only bit indicates that this is an I/O range.
SSA7785 ThunderBird Avenger™ CFG Space 0 Legacy Base Address Registers
The SSA7785 ThunderBird Avenger™ contains three legacy I/O base registers in configuration space 0. These legacy
devices are the Sound Blaster register, the AdLib registers and the MIDI interface registers. They are described in detail
in the next three tables.
TABLE 21
PCI CFG 0
Offset 14h
POR Value
Sound Blaster Base Address- SBBASE (RW/RO)
D31
D30
D29
D28
D27
D26
D25
D24
SBBASE[31:24]
0
0
0
0
0
0
0
0
D23
D22
D21
D20
D19
D18
D17
D16
SBBASE[23:16]
0
0
0
0
0
0
0
0
POR Value
1999 Nov 12
40
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
D15
D14
D13
D12
D11
D10
D9
D8
SBBASE[15:8]
0
0
0
0
0
0
0
0
POR Value
POR Value
D7
D6
D5
D4
D3
D2
D1
D0
SBBASE[7:4]
R
R
R
IO
0
0
0
0
0
0
0
1
Bit
Name
R/W
Function
31:4
SBBASE
RW
Sound Blaster programmable base address. The address should be on a 16 byte
boundary. For reference, the Sound Blaster legacy base addresses are 220h and
240h. Note that accesses from the AdLib base address are mapped into a subset
of the SoundBlaster registers.
3:1
0
R
RO
RO
Reserved. These bits are reserved and always return zeros for plug and play.
I/O flag. This read only bit indicates that this is an I/O range.
IO
TABLE 22
PCI CFG 0
Offset 18h
POR Value
MIDI Base Address- MDBASE (RW/RO)
D31
D30
D29
D28
D27
D26
D25
D24
MDBASE[31:24]
0
0
0
0
0
0
0
0
D23
D22
D21
D20
D19
D18
D17
D16
MDBASE[23:16]
0
0
0
0
0
0
0
0
POR Value
POR Value
D15
D14
D13
D12
D11
D10
D9
D8
MDBASE[15:8]
0
0
0
0
0
0
0
0
D7
D6
D5
D4
D3
D2
D1
D0
MDBASE[7:2]
R
IO
0
0
0
0
0
0
0
1
POR Value
1999 Nov 12
41
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
Bit
Name
R/W
Function
31:2
MDBASE
RW
MIDI port programmable base address. The address should be on a double word
boundary. For reference the MIDI port legacy base addresses are 220h, 230h,
240h, 250h, 300h, 320h, 330h, 332h, 334h, 336h, 340h, and 360h.
1
0
R
RO
RO
Reserved. This bit is reserved a must always return a zero for plug and play.
I/O flag. This read only bit indicates that this is an I/O range.
IO
TABLE 23
PCI CFG 0
Offset 1Ch
POR Value
ADLIB Base Address Register - ALBASE (RW/RO)
D31
D30
D29
D28
D27
D26
D25
D24
ALBASE[31:24]
0
0
0
0
0
0
0
0
D23
D22
D21
D20
D19
D18
D17
D16
ALBASE[23:16]
0
0
0
0
0
0
0
0
POR Value
POR Value
POR Value
D15
D14
D13
D12
D11
D10
D9
D8
ALBASE[15:8]
0
0
0
0
0
0
0
0
D7
D6
D5
D4
D3
D2
D1
D0
ALBASE[7:3]
R
R
IO
0
0
0
0
0
0
0
1
Bit
Name
R/W
Function
31:3
ALBASE
RW
AdLib registers programmable base address. The address should be on a quad
word (64 bit) boundary. For reference, the AdLib legacy base address is at 388h
and maps into a subset of the Sound Blaster registers.
2:1
0
R
RO
RO
Reserved. These bits are reserved and always return zeros for plug and play.
I/O flag. This read only bit indicates that this is an I/O range.
IO
TABLE 24
PCI CFG 0
Offset 2Ch
Subsystem Vendor ID - SUBVENID (RO)
D15 D14 D13 D12
D11
D10
D9
D8
SUBVEN_ID[15:8]
1999 Nov 12
42
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
0
0
0
1
0
0
0
0
POR Value
D7
D6
D5
D4
D3
D2
D1
D0
SUBVEN_ID[7:0]
0
0
0
0
0
1
0
0
POR Value
Bit
Name
R/W
Function
15:0
SUBVEN_ID
RO
Subsystem Vendor ID. The Subsystem Vendor ID register allows the manu-
facturer to uniquely identify their board since more than one board OEM may
use the SSA7785 ThunderBird Avenger™ chip. The Subsystem Vendor ID
register is loaded by an external EEPROM via the Serial Configuration Port
after reset and before any access to the PCI configuration header. The PCI
target logic should force a retry if the Subsystem Vendor ID register has not
completed loading. The Subsystem Vendor ID is read only to the PCI inter-
face. If no external EEPROM is present, then the default Subsystem Vendor
ID is 1004h, that of Philips Semiconductors (VLSI).
TABLE 25
PCI CFG 0
Offset 2Eh
POR Value
Subsystem ID - SUBSYSID (RO)
D15
D14
D13
D12
D11
D10
D9
D8
SUBSYS_ID[15:8]
0
0
0
0
0
0
1
1
D7
D6
D5
D4
D3
D2
D1
D0
SUBSYS_ID[7:0]
0
0
0
0
0
1
0
0
POR Value
Bit
Name
R/W
Function
15:0
SUBSYS_ID
RO
Subsystem ID. The Subsystem ID register allows the manufacturer to
uniquely identify their board since more than one board OEM may use the
SSA7785 ThunderBird Avenger™ chip. The Subsystem ID register is loaded
by an external EEPROM via the Serial Configuration Port after reset and
before any access to the PCI configuration header. The PCI target logic
should force a retry if the Subsystem ID register has not completed loading.
The Subsystem ID is read only to the PCI interface. If no external EEPROM is
present, then the default Subsystem ID is 0304h, identical to the SSA7785
ThunderBird Avenger™ function 0 Device ID.
1999 Nov 12
43
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
TABLE 26
Interrupt Line Register - INTLINE (RW)
PCI CFG 0
Offset 3Ch
POR Value
D7
D6
D5
D4
D3
D2
D1
D0
INTLINE[7:0]
0
0
0
0
0
0
0
0
Bit
Name
INTLINE
R/W
Function
7:0
RW
Interrupt Line. The Interrupt Line register is an eight bit register used to com-
municate interrupt line routing information. The value in this register tells
which input of the system interrupt controller(s) the SSA7785 ThunderBird
Avenger™ Device's interrupt pin is connected to. If serial interrupts are
enabled (COMARCH0 Register IRQSER=1) then the INT_LINE register will
be read only and will have the value of all 1's. If Serial Interrupts are disabled
(IRQSER=0) then the INT_LINE register will be readable/writable.
TABLE 27
PCI CFG 0
Offset 3Dh
POR Value
Interrupt Pin Register - INTPIN (RO)
D7
D6
D5
D4
D3
D2
D1
D0
INTPIN[7:0]
0
0
0
0
0
0
0
1
Bit
Name
INTPIN
R/W
Function
7:0
RO
Interrupt Pin. The interrupt pin register tells which interrupt the SSA7785
ThunderBird Avenger™ device uses. If serial interrupts are enabled
(COMARCH0 Register IRQSER=1) then the INT_PIN register will have the
read only value of all 0's implying that the SSA7785 ThunderBird Avenger™
device does not use any of the PCI Interrupt pins. If Serial Interrupts are dis-
abled (IRQSER=0) then the INT_PIN register will have the read only value of
01h implying that the SSA7785 ThunderBird Avenger™ device uses INT A
interrupt pin.
TABLE 28
PCI CFG 0
Offset 3Eh
POR Value
MIN_GNT Register - MINGNT (RO)
D7
D6
D5
D4
D3
D2
D1
D0
MINGNT[7:0]
0
0
0
0
1
0
0
1
1999 Nov 12
44
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
Bit
7:0
Name
MINGNT
R/W
Function
RO
Minimum grant specifies how long of a burst period the device needs assum-
ing a clock speed of 33MHz. Since the SSA7785 ThunderBird Avenger™,
function 0, will burst a maximum of 64 double words, therefore requiring
about 75 33MHz clocks or 2.25 microseconds. The time units specified are in
0.25 microsecond increments.
TABLE 29
PCI CFG 0
Offset 3Fh
POR Value
MAX_LAT Register - MAXLAT (RO)
D7
D6
D5
D4
D3
D2
D1
D0
MAXLAT[7:0]
0
0
1
0
1
0
0
0
Bit
Name
MAXLAT
R/W
Function
7:0
RO
Maximum latency specifies how often a device needs to gain access to the
PCI bus. The SSA7785 ThunderBird Avenger™, function 0, should only
request the bus a a maximum of every 10 microseconds. The MAXLAT value
is computed using the same parameters as the MINGNT.
SSA7785 ThunderBird Avenger™ CFG Space 0 DMA Base Registers
This section will describe the PCI configuration registers that provide functions such as base address remapping and
the like. These registers reside within the PCI interface.
TABLE 30
PCI CFG 0
Offset 40h
POR Value
DMA Channel A Base Address Register - DMAABASE (RW)
D15
D14
D13
D12
D11
D10
D9
D8
DMAABASE[15:8]
0
0
0
0
0
0
0
0
D7
D6
D5
D4
D3
D2
D1
D0
DMAA
BASE[7]
0
R
DMAABASE[5:4]
R
XFRSIZ[1:0]
DDMAA
EN
0
0
0
0
0
1
0
POR Value
Bit
Name
R/W
Function
15:7
6
DMAABASE
R
RW
RO
DMA channel A programmable base address, bits 15:7.
Reserved. This bit must always be zero.
1999 Nov 12
45
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
Bit
5:4
Name
R/W
Function
DMAABASE
RW
DMA channel A programmable base address, bits 5:4. These bits select a
channel number for this channel. In LAM DMAABASE[5:4] select the channel
number that this DMA represents, it should be different than DMAB-
BASE[5:4].
3
R
RO
Reserved. This bit must always be zero.
DMA transfer size.
00 = reserved
2:1
XFRSIZ
RW
10 = double word
11 = reserved
01 = reserved
0
DDMAAEN
RW
DDMA channel A enable. This DDMA channel is enabled when this bit is set
to a one.
TABLE 31
PCI CFG 0
Offset 42h
POR Value
DMA Channel B Base Address Register - DMABBASE (RW)
D31
D30
D29
D28
D27
D26
D25
D24
DMABBASE[15:8]
0
0
0
0
0
0
0
0
D23
D22
D21
D20
D19
D18
D17
D16
DMAB
BASE[7]
0
R
DMABBASE[5:4]
R
R
R
DDMAB
EN
0
0
0
0
0
0
0
POR Value
Bit
Name
R/W
Function
15:7
DMABBASE
RW
DMA channel B programmable base address. Normally this base is set the
same as DMA channel A except for DMABBASE[5:4] which select the chan-
nel number. This is a requirement of some PC chipsets, future chipsets may
eliminate this requirement. In LAM DMABBASE[5:4] select the channel num-
ber that this DMA represents, it should be different than DMAABASE[5:4].
6
R
RO
Reserved. This bit must always be zero.
5:4
DMABBASE
RW
DMA channel B programmable base address, bits 5:4. These bits select a
channel number for this channel. In LAM DMABBASE[5:4] select the channel
number that this DMA represents, it should be different than DMAA-
BASE[5:4].
3:1
0
R
RO
Reserved. These bits must always be zeros.
DDMABEN
RW
DMA channel B enable. This DDMA channel is enabled when this bit is set to
a one.
1999 Nov 12
46
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
TABLE 32
Miscellaneous Configuration Register - MSCCFG (RO/RW)
PCI CFG 0
D7
D6
D5
D4
D3
D2
D1
D0
ASYMCLK[1:0]
RDY_EN CFGCLK
BHEN
PCCH[1:0]
PCPCI
_EN
0
Offset 58h
POR Value
0
0
0
0
0
0
0
Bit
Name
R/W
Function
7:6
ASYMCLK
RW
Asymmetrical Clock Select. These bits program the duty cycle for the input
for the two phase DSP clock generator.
5
RDY_EN
RW
RW
Music registers ready enable. When set, the music registers will cause the
PCI interface to retry when either of the music registers (music0 or music1)
are full.
4
CFGCLK
Serial Configuration Port Clock Select. This bit selects the clock output to the
Configuration Serial Port.
0 = Ouput a 400 KHz clock. Incoming data will be synchronized to this clock.
1 = Output the PCI clock.
3
BHEN
PCCH
RW
RW
Bus Hog Fix Enable.
2:1
These two bits are the encoded channel number that the soundblaster will be
on in the PC/PCI mode and are valid only when the PC/PCI mode is enabled.
0
PCPCI_EN
RW
PC/PCI mode enable bit. This bit, when set = 1, will enable the PC/PCI side-
band signals for the Soundblaster legacy mode.
PCI Configuration Space 1
The following table is a summary of all the PCI configuration space registers. The registers that are block-mates with
the PCI interface (offset 00h - 3Ch) will be detailed following SSA7785 ThunderBird Avenger™. The remainder of the
registers will be detailed with the blocks they control. This register space is for the joystick.
TABLE 33
Byte 3
PCI Configuration Space 1 Register Map
Byte 2 Byte 1
Device ID
Byte 0
Vendor ID
Command
Offset
00h
Status
04h
Class Code
Revision ID
08h
BIST
Header Type
Master Latency Timer
GMBASE
Cache Line Size
0Ch
10h
Reserved
Reserved
Reserved
14-2B
2Ch
Subsystem ID
Subsystem Vendor ID
30-3Bh
3Ch
Max_Lat
Min_Gnt
Interrupt Pin
Interrupt Line
40-6Bh
1999 Nov 12
47
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
Reserved
Reserved
Reserved
GAMECFG0
6Ch
Reserved
70-FFh
TABLE 34
PCI CFG 1
Offset 00h
POR Value
Vendor ID Register - VENDOR_ID (RO)
D15
D14
D13
D12
D11
D10
D9
D8
VENDOR_ID[15:8]
0
0
0
1
0
0
0
0
D7
D6
D5
D4
D3
D2
D1
D0
VENDOR_ID[7:0]
0
0
0
0
0
1
0
0
POR Value
Bit
Name
R/W
Function
15:0
VENDOR_ID
RO
The PCI Vendor ID for Philips Semiconductors (VLSI) is 1004h.
TABLE 35
PCI CFG 1
Offset 02h
POR Value
Device ID Register - DEVICE_ID (RO)
D15
D14
D13
D12
D11
D10
D9
D8
DEVICE_ID[15:8]
0
0
0
0
0
0
1
1
D7
D6
D5
D4
D3
D2
D1
D0
DEVICE_ID[7:0]
0
0
0
0
0
1
0
1
POR Value
Bit
Name
R/W
Function
15:0
DEVICE_ID
RO
The Device ID for the SSA7785 ThunderBird Avenger™, function 1 is 0305h.
TABLE 36
PCI CFG 1
Command Register - COMMAND (RO/RW)
D15
D14
D13
D12
D11
D10
D9
D8
R
R
R
R
R
R
FBACK_ SERR_R
Offset 04h
POR Value
ENB
0
ESP
0
0
0
0
0
0
0
1999 Nov 12
48
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
D7
D6
D5
D4
D3
D2
D1
D0
STEP-
PING
PERR_
RESP
0
SNOOP_
ENB
MEM_
INV_EN
0
SPEC_
CNTL
0
MAST_
CNTL
0
MEM_
CNTL
0
IO_
CNTL
0
0
0
POR Value
Bit
Name
R/W
Function
15:10
9
R
RO
RO
Reserved. These bits always return zero.
FBACK_ENB
Fast Back-to-Back Enable: the SSA7785 ThunderBird Avenger™, function 1
does not support fast back to back master cycles therefore this bit always
returns a zero.
8
SERR_RESP
RW
System Error Response: When set to 1, the SSA7785 ThunderBird
Avenger™, function 1 responds to detected PCI bus address parity errors by
asserting SERR#. When 0, the SSA7785 ThunderBird Avenger™ ignores
these errors.
7
6
STEPPING
RO
Address / Data Stepping: Always returns 0.
PERR_RESP
RW
Parity Error Response: When set to 1, the SSA7785 ThunderBird Avenger™,
function 1 responds to detected PCI bus data parity errors by asserting
PERR#. When 0, the SSA7785 ThunderBird Avenger™ ignores PCI bus data
parity errors.
5
SNOOP_ENB
RO
VGA Snoop Enable. The SSA7785 ThunderBird Avenger™, function 1 does
not support VGA snoop enable, therefor this bit always returns a zero.
4
3
MEM_INV_EN RO
Memory Write and Invalidate Enable: Always returns 0.
SPEC_CNTL
RO
Special Cycle Control: Controls the devices ability to respond to Special
Cycle Operations. A value of 0 causes the SSA7785 ThunderBird Avenger™,
function 1 to ignore all Special Cycles.
2
1
MAST_CNTL
MEM_CNTL
RO
RO
Master Control: The SSA7785 ThunderBird Avenger™, function 1 does not
have any master functions.
Memory Response Control: The SSA7785 ThunderBird Avenger™, function 1
does not support target memory cycles therefore this bit always returns a
zero.
0
IO_CNTL
RW
I/O Response Control: Controls the SSA7785 ThunderBird Avenger™, func-
tion 1’s response to I/O space. A value of 0 disables the device response. A
value of 1 allows the device to respond to I/O space accesses.
TABLE 37
PCI CFG 1
Status Register - STATUS (RO/RW)
D15
D14
D13
D12
D11
D10
D9
D8
R_PERR S_SERR
SM_
ABORT
0
RT_
ABORT
0
ST_
ABORT
0
DEVSEL_TMG
S_PERR
Offset 06h
POR Value
0
0
0
1
0
1999 Nov 12
49
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
D7
D6
D5
D4
D3
D2
D1
D0
F_
BK2BK
1
UDF
MHz66
R
R
R
R
R
0
0
0
0
0
0
0
POR Value
Bit
Name
R/W
Function
15
R_PERR
RC
Received Parity Error: When set to 1, this bit indicates that the SSA7785
ThunderBird Avenger™, function 1 has detected a PCI bus parity error at
least once since this bit was last reset.
14
S_SERR
RC
Signalled System Error: When set to 1, this bit indicates that the SSA7785
ThunderBird Avenger™, function 1 has reported a system error on the
SERR# signal at least once since this bit was last reset.
13
12
11
SM_ABORT
RT_ABORT
ST_ABORT
RO
RO
RC
Signalled Master Abort: The SSA7785 ThunderBird Avenger™, function 1,
does not act as a master.
Received Target Abort: The SSA7785 ThunderBird Avenger™, function 1
does not act as a master.
Signalled Target Abort: When set to 1, this bit indicates that the SSA7785
ThunderBird Avenger™, function 1 has signalled a target abort at least once
since this bit was last reset.
10:9
DEVSEL_TM
G
RO
DEVSEL Timing: This field indicates the timing of the DEVSEL output (when
a PCI master is accessing a SSA7785 ThunderBird Avenger™, function 1
resource). It always returns 01 (Bin).
00 = Fast
01 = Medium (Default Timing)
10 = Slow
8
7
S_PERR
F_BK2BK
RO
RO
Signalled Parity Error: The SSA7785 ThunderBird Avenger™, function 1,
does not act as a bus master.
Always returns 1 to indicate support of fast back to back cycles when the
SSA7785 ThunderBird Avenger™, function 1 is the target.
6
UDF
MHz66
R
RO
RO
RO
User Definable Features. Always returns 0.
66 MHz Capable. Always returns 0.
5
4:0
Reserved. These bits always return zero.
Note: An RC indicates that this bit can be reset to 0 by writing a 1. Writing a zero leaves this bit unchanged.
TABLE 38
PCI CFG 1
Offset 08h
POR Value
Revision ID Register - REVISION (RO)
D7
D6
D5
D4
D3
D2
D1
D0
REVISION_ID[7:0]
0
0
0
0
0
0
0
0
1999 Nov 12
50
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
Bit
7:0
Name
R/W
Function
The current revision ID for the SSA7785 ThunderBird Avenger™ joystick.
REVISION_ID
RO
TABLE 39
PCI CFG 1
Offset 09h
POR Value
Class Code Register - CLASS (RO)
D23
D22
D21
D20
D19
D18
D17
D16
BASE_CLASS[7:0]
0
0
0
0
1
0
0
1
D15
D14
D13
D12
D11
D10
D9
D8
SUB_CLASS[7:0]
1
0
0
0
0
0
0
0
POR Value
D7
D6
D5
D4
D3
D2
D1
D0
PGM_IFACE[7:0]
0
0
0
0
0
0
0
0
POR Value
Bit
Name
R/W
Function
23:16 BASE_CLASS RO
The base class of 09h describes an input device.
The sub class of 80h describes a “other” input controller.
Device generic function identification.
15:8
7:0
SUB_CLASS
PGM_IFACE
RO
RO
TABLE 40
PCI CFG 1
Offset 0Ch
POR Value
CACHELINE Size Register - CACHELINE (RO)
D7
D6
D5
D4
D3
D2
D1
D0
CACHELINE[7:0]
0
0
0
0
0
0
0
0
Bit
Name
CACHELINE
R/W
Function
7:0
RO
Reserved for cache line size indicator.
TABLE 41
PCI CFG 1
Offset 0Dh
Master Latency Timer Register - LATIME (RW)
D7
D6
D5
D4
D3
D2
D1
D0
LATIME[7:0]
1999 Nov 12
51
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
PCI CFG 1
D7
D6
D5
D4
D3
D2
D1
D0
0
0
0
0
0
0
0
0
POR Value
Bit
Name
LATIME
R/W
Function
7:0
RO
The primary bus latency timer specifies the number of primary clocks that the
primary master may consume. It is set to zero since the joystick is a target
only.
TABLE 42
Header Type Register - HEADER (RO)
PCI CFG 1
D7
D6
D5
D4
D3
D2
D1
D0
MULTI_
HEADER[6:0]
Offset 0Eh
POR Value
FN
1
0
0
0
0
0
0
0
Bit
Name
R/W
Function
7
MULTI_FN
RO
For the SSA7785 ThunderBird Avenger™, function 1, this bit has no mean-
ing.
6:0
HEADER
RO
Header Type. A 00h indicates this device is not a PCI-to-PCI bridge.
TABLE 43
PCI CFG 1
Offset 0Fh
POR Value
BIST Register - BIST (RO)
D7
D6
D5
D4
D3
D2
D1
D0
BIST
START
R
R
CODE[3:0]
0
0
0
0
0
0
0
0
Bit
Name
BIST
R/W
Function
7
6
RO
BIST capable. BIST is not supported in the SSA7785 ThunderBird
Avenger™, function 1 at this revision.
START
RO
If BIST capable, this bit will start the BIST. Writing a 1 will start the test and
the BIST should write this bit to a zero when complete. Software should fail
the device if the BIST is not complete after 2 seconds.
5:4
3:0
R
RO
RO
Reserved. These bits always return zero.
CODE
Completion Code. A value of zero means the device has passed its test.
Non-zero values means the device has failed using device specific failure
codes.
SSA7785 ThunderBird Avenger™ CFG Space 1 Legacy Base Address Registers
1999 Nov 12
52
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
The SSA7785 ThunderBird Avenger™, contains one legacy I/O base registers in configuration space 1. The joystick is
the sole legacy I/O base address register and is documented here.
TABLE 44
PCI CFG 1
Offset 10h
POR Value
Game Port(JOYSTICK) Base Address - GMBASE (RW/RO)
D31
D30
D29
D28
D27
D26
D25
D24
GMBASE[31:24]
0
0
0
0
0
0
0
0
D23
D22
D21
D20
D19
D18
D17
D16
GMBASE[23:16]
0
0
0
0
0
0
0
0
POR Value
POR Value
POR Value
D15
D14
D13
D12
D11
D10
D9
D8
GMBASE[15:8]
0
0
0
0
0
0
0
0
D7
D6
D5
D4
D3
D2
D1
D0
GMBASE[7:3]
R
R
IO
0
0
0
0
0
0
0
1
Bit
Name
R/W
Function
31:3
GMBASE
RW
Game port programmable base address. The address should be on a 8 byte
boundary. For reference, the game port legacy base address is 201h.
2:1
0
R
RO
RO
Reserved. These bits are reserved and always return zeros for plug and play.
I/O flag. This read only bit indicates that this is an I/O range.
IO
TABLE 45
PCI CFG 1
Offset 2Ch
POR Value
Subsystem Vendor ID - SUBVENID (RO)
D15
D14
D13
D12
D11
D10
D9
D8
SUBVEN_ID[15:8]
0
0
0
1
0
0
0
0
D7
D6
D5
D4
D3
D2
D1
D0
SUBVEN_ID[7:0]
0
0
0
0
0
1
0
0
POR Value
1999 Nov 12
53
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
Bit
Name
R/W
Function
15:0
SUBVEN_ID
RO
Subsystem Vendor ID. The Subsystem Vendor ID register allows the manu-
facturer to uniquely identify their board since more than one board OEM may
use the SSA7785 ThunderBird Avenger™ chip. The Subsystem Vendor ID
register is loaded by an external EEPROM via the Serial Configuration Port
after reset and before any access to the PCI configuration header. The PCI
target logic should force a retry if the Subsystem Vendor ID register has not
completed loading. The Subsystem Vendor ID is read only to the PCI inter-
face. If no external EEPROM is present, then the default Subsystem Vendor
ID is 1004h, that of Philips Semiconductors (VLSI).
TABLE 46
PCI CFG 1
Offset 2Eh
POR Value
Subsystem ID - SUBSYSID (RO)
D15
D14
D13
D12
D11
D10
D9
D8
SUBSYS_ID[15:8]
0
0
0
0
0
0
1
1
D7
D6
D5
D4
D3
D2
D1
D0
SUBSYS_ID[7:0]
0
0
0
0
0
1
0
1
POR Value
Bit
Name
R/W
Function
15:0
SUBSYS_ID
RO
Subsystem ID. The Subsystem ID register allows the manufacturer to
uniquely identify their board since more than one board OEM may use the
SSA7785 ThunderBird Avenger™ chip. The Subsystem ID register is loaded
by an external EEPROM via the Serial Configuration Port after reset and
before any access to the PCI configuration header. The PCI target logic
should force a retry if the Subsystem ID register has not completed loading.
The Subsystem ID is read only to the PCI interface. If no external EEPROM is
present, then the default Subsystem ID is 0305h, identical to the SSA7785
ThunderBird Avenger™ function 1 Device ID.
TABLE 47
PCI CFG 1
Offset 3Ch
POR Value
Interrupt Line Register - INTLINE (RO)
D7
D6
D5
D4
D3
D2
D1
D0
INTLINE[7:0]
0
0
0
0
0
0
0
0
1999 Nov 12
54
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
Bit
7:0
Name
INTLINE
R/W
Function
RO
Interrupt Line. The Interrupt Line register is an eight bit register used to com-
municate interrupt line routing information. The value in this register tells
which input of the system interrupt controller(s) the SSA7785 ThunderBird
Avenger™ Device's interrupt pin is connected to. It is set to 00h to use func-
tion 0’s interrupt line. There is no legacy interrupt support for function 1.
TABLE 48
PCI CFG 1
Offset 3Dh
POR Value
Interrupt Pin Register - INTPIN (RO)
D7
D6
D5
D4
D3
D2
D1
D0
INTPIN[7:0]
0
0
0
0
0
0
0
0
Bit
Name
INTPIN
R/W
Function
7:0
RO
Interrupt Pin. The interrupt pin register tells which interrupt the SSA7785
ThunderBird Avenger™ device uses. The read only value of 00h implies that
the SSA7785 ThunderBird Avenger™ device shares the INT A interrupt pin
with function 0. There is no legacy interrupt support for function 1.
TABLE 49
PCI CFG 1
Offset 3Eh
POR Value
MIN_GNT Register - MINGNT (RO)
D7
D6
D5
D4
D3
D2
D1
D0
MINGNT[7:0]
0
0
0
0
0
0
0
0
Bit
Name
MINGNT
R/W
Function
7:0
RO
Minimum grant specifies how long of a burst period the device needs assum-
ing a clock speed of 33MHz. Since the SSA7785 ThunderBird Avenger™,
function 1, is a target only, this register is read only and set to zero.
TABLE 50
PCI CFG 1
Offset 3Fh
POR Value
MAX_LAT Register - MAXLAT (RO)
D7
D6
D5
D4
D3
D2
D1
D0
MAXLAT[7:0]
0
0
0
0
0
0
0
0
1999 Nov 12
55
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
Bit
7:0
Name
MAXLAT
R/W
Function
RO
Maximum latency specifies how often a device needs to gain access to the
PCI bus. The SSA7785 ThunderBird Avenger™, function 1, is a target only,
this register is read only and set to zero.
PCI Configuration Space 2
The following table is a summary of all the PCI configuration space registers. The registers that are block-mates with
the PCI interface (offset 00h - 3Ch) will be detailed following SSA7785 ThunderBird Avenger™. The remainder of the
registers will be detailed with the blocks they control. This register space is for the 16650 UART.
TABLE 51
Byte 3
PCI Configuration Space 2 Register Map
Byte 2 Byte 1
Device ID
Byte 0
Vendor ID
Command
Offset
00h
Status
04h
Class Code
Revision ID
08h
BIST
Header Type
Master Latency Timer
UARTBASE
Cache Line Size
0Ch
10-13h
14-2B
2Ch
Reserved
Subsystem ID
Subsystem Vendor ID
Reserved
30-3Bh
3Ch
Max_Lat
Reserved
Reserved
Min_Gnt
Reserved
Reserved
Interrupt Pin
Interrupt Line
UARTCFG0
SFCR
Reserved
Reserved
40h
44h
Reserved
48-FFh
TABLE 52
PCI CFG 2
Offset 00h
POR Value
Vendor ID Register - VENDOR_ID (RO)
D15
D14
D13
D12
D11
D10
D9
D8
VENDOR_ID[15:8]
0
0
0
1
0
0
0
0
D7
D6
D5
D4
D3
D2
D1
D0
VENDOR_ID[7:0]
0
0
0
0
0
1
0
0
POR Value
Bit
Name
R/W
Function
15:0
VENDOR_ID
RO
The PCI Vendor ID for Philips Semiconductors (VLSI) is 1004h.
1999 Nov 12
56
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
TABLE 53
Device ID Register - DEVICE_ID (RO)
PCI CFG 2
Offset 02h
POR Value
D15
D14
D13
D12
D11
D10
D9
D8
DEVICE_ID[15:8]
0
0
0
0
0
0
1
1
D7
D6
D5
D4
D3
D2
D1
D0
DEVICE_ID[7:0]
0
0
0
0
0
1
1
0
POR Value
Bit
Name
R/W
Function
15:0
DEVICE_ID
RO
The Device ID for the SSA7785 ThunderBird Avenger™, function 2 is 0306h.
TABLE 54
PCI CFG 2
Command Register - COMMAND (RO/RW)
D15
D14
D13
D12
D11
D10
D9
D8
R
R
R
R
R
R
FBACK_ SERR_R
Offset 04h
POR Value
ENB
0
ESP
0
0
0
0
0
0
0
D7
D6
D5
D4
D3
D2
D1
D0
STEP-
PING
PERR_
RESP
0
SNOOP_
ENB
MEM_
INV_EN
0
SPEC_
CNTL
0
MAST_
CNTL
0
MEM_
CNTL
0
IO_
CNTL
0
0
0
POR Value
Bit
Name
R/W
Function
15:10
9
R
RO
RO
Reserved. These bits always return zero.
FBACK_ENB
SERR_RESP
Fast Back-to-Back Enable: the SSA7785 ThunderBird Avenger™, function 2
does not support fast back to back master cycles therefore this bit always
returns a zero.
8
RW
System Error Response: When set to 1, the SSA7785 ThunderBird
Avenger™, function 2 responds to detected PCI bus address parity errors by
asserting SERR#. When 0, the SSA7785 ThunderBird Avenger™ ignores
these errors.
7
6
STEPPING
RO
Address / Data Stepping: Always returns 0.
PERR_RESP
RW
Parity Error Response: When set to 1, the SSA7785 ThunderBird Avenger™,
function 2 responds to detected PCI bus data parity errors by asserting
PERR#. When 0, the SSA7785 ThunderBird Avenger™ ignores PCI bus data
parity errors.
1999 Nov 12
57
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
Bit
Name
R/W
Function
5
SNOOP_ENB
RO
VGA Snoop Enable. The SSA7785 ThunderBird Avenger™, function 2 does
not support VGA snoop enable, therefor this bit always returns a zero.
4
3
MEM_INV_EN RO
Memory Write and Invalidate Enable: Always returns 0.
SPEC_CNTL
RO
Special Cycle Control: Controls the devices ability to respond to Special
Cycle Operations. A value of 0 causes the SSA7785 ThunderBird Avenger™,
function 2 to ignore all Special Cycles.
2
1
MAST_CNTL
MEM_CNTL
RO
RO
Master Control: The SSA7785 ThunderBird Avenger™, function 2 does not
have any master functions.
Memory Response Control: The SSA7785 ThunderBird Avenger™, function 2
does not support target memory cycles therefore this bit always returns a
zero.
0
IO_CNTL
RW
I/O Response Control: Controls the SSA7785 ThunderBird Avenger™, func-
tion 2’s response to I/O space. A value of 0 disables the device response. A
value of 1 allows the device to respond to I/O space accesses.
TABLE 55
PCI CFG 2
Status Register - STATUS (RO/RW)
D15
D14
D13
D12
D11
D10
D9
D8
R_PERR S_SERR
SM_
ABORT
0
RT_
ABORT
0
ST_
ABORT
0
DEVSEL_TMG
S_PERR
Offset 06h
POR Value
0
0
0
1
0
D7
D6
D5
D4
D3
D2
D1
D0
F_
BK2BK
1
UDF
MHz66
R
R
R
R
R
0
0
0
0
0
0
0
POR Value
Bit
Name
R/W
Function
15
R_PERR
RC
Received Parity Error: When set to 1, this bit indicates that the SSA7785
ThunderBird Avenger™, function 2 has detected a PCI bus parity error at
least once since this bit was last reset.
14
S_SERR
RC
Signalled System Error: When set to 1, this bit indicates that the SSA7785
ThunderBird Avenger™, function 2 has reported a system error on the
SERR# signal at least once since this bit was last reset.
13
12
SM_ABORT
RT_ABORT
RO
RO
Signalled Master Abort: The SSA7785 ThunderBird Avenger™, function 2,
does not act as a master.
Received Target Abort: The SSA7785 ThunderBird Avenger™, function 2
does not act as a master.
1999 Nov 12
58
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
Bit
11
Name
R/W
Function
ST_ABORT
RC
Signalled Target Abort: When set to 1, this bit indicates that the SSA7785
ThunderBird Avenger™, function 2 has signalled a target abort at least once
since this bit was last reset.
10:9
DEVSEL_TM
G
RO
DEVSEL Timing: This field indicates the timing of the DEVSEL output (when
a PCI master is accessing a SSA7785 ThunderBird Avenger™ resource). It
always returns 01 (Bin).
00 = Fast
01 = Medium (Default Timing)
10 = Slow
8
7
S_PERR
F_BK2BK
RO
RO
Signalled Parity Error: The SSA7785 ThunderBird Avenger™, function 2,
does not act as a bus master.
Always returns 1 to indicate support of fast back to back cycles when the
SSA7785 ThunderBird Avenger™, function 2 is the target.
6
UDF
MHz66
R
RO
RO
RO
User Definable Features. Always returns 0.
66 MHz Capable. Always returns 0.
5
4:0
Reserved. These bits always return zero.
Note: An RC indicates that this bit can be reset to 0 by writing a 1. Writing a zero leaves this bit unchanged.
TABLE 56
PCI CFG 2
Offset 08h
POR Value
Revision ID Register - REVISION (RO)
D7
D6
D5
D4
D3
D2
D1
D0
REVISION_ID[7:0]
0
0
0
0
0
0
0
0
Bit
Name
REVISION_ID
R/W
Function
7:0
RO
The current revision ID for the SSA7785 ThunderBird Avenger™, function 2
joystick..
TABLE 57
PCI CFG 2
Offset 09h
POR Value
Class Code Register - CLASS (RO)
D23
D22
D21
D20
D19
D18
D17
D16
BASE_CLASS[7:0]
0
0
0
0
0
1
1
1
D15
D14
D13
D12
D11
D10
D9
D8
SUB_CLASS[7:0]
0
0
0
0
0
0
0
0
POR Value
1999 Nov 12
59
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
PCI CFG 2
D23
D7
D22
D6
D21
D5
D20
D4
D19
D3
D18
D2
D17
D1
D16
D0
PGM_IFACE[7:0]
0
0
0
0
0
0
1
0
POR Value
Bit
Name
R/W
Function
23:16 BASE_CLASS RO
The base class of 07h describes simple communication devices.
The sub class of 00h describes serial controllers.
15:8
7:0
SUB_CLASS
PGM_IFACE
RO
RO
The interface of 02h details a 16550 compatible serial controller.
TABLE 58
PCI CFG 2
Offset 0Ch
POR Value
CACHELINE Size Register - CACHELINE (RO)
D7
D6
D5
D4
D3
D2
D1
D0
CACHELINE[7:0]
0
0
0
0
0
0
0
0
Bit
Name
CACHELINE
R/W
Function
7:0
RO
Reserved for cache line size indicator.
TABLE 59
PCI CFG 2
Offset 0Dh
POR Value
Master Latency Timer Register - LATIME (RW)
D7
D6
D5
D4
D3
D2
D1
D0
LATIME[7:0]
0
0
0
0
0
0
0
0
Bit
Name
LATIME
R/W
Function
7:0
RO
The primary bus latency timer specifies the number of primary clocks that the
primary master may consume. It is set to zero since the 16650 UART is a tar-
get only.
TABLE 60
PCI CFG 2
Header Type Register - HEADER (RO)
D7
D6
D5
D4
D3
D2
D1
D0
MULTI_
HEADER[6:0]
Offset 0Eh
POR Value
FN
1
0
0
0
0
0
0
0
1999 Nov 12
60
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
Bit
Name
R/W
Function
7
MULTI_FN
RO
For the SSA7785 ThunderBird Avenger™, function 2, this bit has no mean-
ing.
6:0
HEADER
RO
Header Type. A 00h indicates this device is not a PCI-to-PCI bridge.
TABLE 61
PCI CFG 2
Offset 0Fh
POR Value
BIST Register - BIST (RO)
D7
D6
D5
D4
D3
D2
D1
D0
BIST
START
R
R
CODE[3:0]
0
0
0
0
0
0
0
0
Bit
Name
BIST
R/W
Function
7
6
RO
BIST capable. BIST is not supported in the SSA7785 ThunderBird
Avenger™, function 2 at this revision.
START
RO
If BIST capable, this bit will start the BIST. Writing a 1 will start the test and
the BIST should write this bit to a zero when complete. Software should fail
the device if the BIST is not complete after 2 seconds.
5:4
3:0
R
RO
RO
Reserved. These bits always return zero.
CODE
Completion Code. A value of zero means the device has passed its test.
Non-zero values means the device has failed using device specific failure
codes.
SSA7785 ThunderBird Avenger™ CFG Space 1 Legacy Base Address Registers
The SSA7785 ThunderBird Avenger™, contains one legacy I/O base registers in configuration space 1. The joystick is
the sole legacy I/O base address register and is documented here.
TABLE 62
PCI CFG 2
Offset 10h
POR Value
16650 UART Base Address - UARTBASE (RW/RO)
D31
D30
D29
D28
D27
D26
D25
D24
UARTBASE[31:24]
0
0
0
0
0
0
0
0
D23
D22
D21
D20
D19
D18
D17
D16
UARTBASE[23:16]
0
0
0
0
0
0
0
0
POR Value
D15
D14
D13
D12
D11
D10
D9
D8
1999 Nov 12
61
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
UARTBASE[15:8]
0
0
0
0
0
0
0
0
POR Value
POR Value
D7
D6
D5
D4
D3
D2
D1
D0
UARTBASE[7:3]
R
R
IO
0
0
0
0
0
0
0
1
Bit
Name
R/W
Function
31:3
UART-
BASE
RW
16650 UART base address. The address should be on a 8 byte boundary. For ref-
erence, 550 compatible UART legacy base addresses are 3E8h, 338h, 2E8h,
220h, 238h, 2E0h, 228h, 3F8h, and 2F8h.
2:1
0
R
RO
RO
Reserved. These bits are reserved and always return zeros for plug and play.
I/O flag. This read only bit indicates that this is an I/O range.
IO
TABLE 63
PCI CFG 2
Offset 2Ch
POR Value
Subsystem Vendor ID - SUBVENID (RO)
D15
D14
D13
D12
D11
D10
D9
D8
SUBVEN_ID[15:8]
0
0
0
1
0
0
0
0
D7
D6
D5
D4
D3
D2
D1
D0
SUBVEN_ID[7:0]
0
0
0
0
0
1
0
0
POR Value
Bit
Name
R/W
Function
15:0
SUBVEN_ID
RO
Subsystem Vendor ID. The Subsystem Vendor ID register allows the manu-
facturer to uniquely identify their board since more than one board OEM may
use the SSA7785 ThunderBird Avenger™ chip. The Subsystem Vendor ID
register is loaded by an external EEPROM via the Serial Configuration Port
after reset and before any access to the PCI configuration header. The PCI
target logic should force a retry if the Subsystem Vendor ID register has not
completed loading. The Subsystem Vendor ID is read only to the PCI inter-
face. If no external EEPROM is present, then the default Subsystem Vendor
ID is 1004h, that of Philips Semiconductors (VLSI).
TABLE 64
PCI CFG 2
Subsystem ID - SUBSYSID (RO)
D15 D14 D13
D12
D11
D10
D9
D8
1999 Nov 12
62
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
SUBSYS_ID[15:8]
Offset 2Eh
POR Value
0
0
0
0
0
0
1
1
D7
D6
D5
D4
D3
D2
D1
D0
SUBSYS_ID[7:0]
0
0
0
0
0
1
1
0
POR Value
Bit
Name
R/W
Function
15:0
SUBSYS_ID
RO
Subsystem ID. The Subsystem ID register allows the manufacturer to
uniquely identify their board since more than one board OEM may use the
SSA7785 ThunderBird Avenger™ chip. The Subsystem ID register is loaded
by an external EEPROM via the Serial Configuration Port after reset and
before any access to the PCI configuration header. The PCI target logic
should force a retry if the Subsystem ID register has not completed loading.
The Subsystem ID is read only to the PCI interface. If no external EEPROM is
present, then the default Subsystem ID is 0306h, identical to the SSA7785
ThunderBird Avenger™ function 2 Device ID.
TABLE 65
PCI CFG 2
Offset 3Ch
POR Value
Interrupt Line Register - INTLINE (RO)
D7
D6
D5
D4
D3
D2
D1
D0
INTLINE[7:0]
0
0
0
0
0
0
0
0
Bit
Name
INTLINE
R/W
Function
7:0
RO
Interrupt Line. The Interrupt Line register is an eight bit register used to com-
municate interrupt line routing information. The value in this register tells
which input of the system interrupt controller(s) the SSA7785 ThunderBird
Avenger™ Device's interrupt pin is connected to. It is set to 00h to use func-
tion 0’s interrupt line. There is no legacy interrupt support for function 2.
TABLE 66
PCI CFG 2
Offset 3Dh
POR Value
Interrupt Pin Register - INTPIN (RO)
D7
D6
D5
D4
D3
D2
D1
D0
INTPIN[7:0]
0
0
0
0
0
0
0
0
1999 Nov 12
63
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
Bit
7:0
Name
INTPIN
R/W
Function
RO
Interrupt Pin. The interrupt pin register tells which interrupt the SSA7785
ThunderBird Avenger™ device uses. The read only value of 00h implies that
the SSA7785 ThunderBird Avenger™ device shares the INT A interrupt pin
with function 0. There is no legacy interrupt support for function 2.
TABLE 67
PCI CFG 2
Offset 3Eh
POR Value
MIN_GNT Register - MINGNT (RO)
D7
D6
D5
D4
D3
D2
D1
D0
MINGNT[7:0]
0
0
0
0
0
0
0
0
Bit
Name
MINGNT
R/W
Function
7:0
RO
Minimum grant specifies how long of a burst period the device needs assum-
ing a clock speed of 33MHz. Since the SSA7785 ThunderBird Avenger™,
function 2, is a target only, this register is read only and set to zero.
TABLE 68
PCI CFG 2
Offset 3Fh
POR Value
MAX_LAT Register - MAXLAT (RO)
D7
D6
D5
D4
D3
D2
D1
D0
MAXLAT[7:0]
0
0
0
0
0
0
0
0
Bit
Name
MAXLAT
R/W
Function
7:0
RO
Maximum latency specifies how often a device needs to gain access to the
PCI bus. The SSA7785 ThunderBird Avenger™, function 2, is a target only,
this register is read only and set to zero.
MULTIMEDIA TIMER
OVERVIEW
The Multimedia Timer is a 20 bit counter with 840ns resolution for general purpose use under host software control. The
timer subsystem consists of the 20-bit counter and I/O space registers. It takes three I/O cycles to read the complete
value of the Timer since the device allows only byte accesses.
The Multimedia Timer will get its time base by dividing down the CCLK clock. An interrupt and flag is provided to deter-
mine if the timer count has rolled over. The timer can either start from zero or be preloaded with a start value.
1999 Nov 12
64
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
FIGURE 7
MULTIMEDIA TIMER BLOCK DIAGRAM
CLOCK
DIVIDE
LOGIC
COUNTER CLOCK
CCLK
CTL
CTL
COUNT
INTR
INTERNAL
PS BUS
INTERFACE
20 BIT - 1uS
RESOLUTION
UP COUNTER
PS BUS
INTERRUPT
GENERATION
LOGIC
MULTIMEDIA TIMER REGISTER DEFINITION
There are five registers that control the multimedia timer. These registers are the timer control register, timer status, and
timer count registers. The timer control register resides in PCI configuration space. The remainder of the timer registers
are in I/O space.
MULTIMEDIA TIMER PCI CONFIGURATION REGISTERS
TABLE 69
TIMRCFG0 (RW/RO) - MULTIMEDIA TIMER CONFIG REGISTER 0
PCI CFG 0
Offset 64h
POR Value
D7
R
D6
R
D5
R
D4
R
D3
R
D2
D1
D0
R
FSTCLK TMRRST
0
0
0
0
0
0
0
0
Bit
Name
R/W
Function
7:3
R
RO
Reserved. These bits return zeros.
1999 Nov 12
65
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
Bit
Name
FSTCLK
R/W
Function
2
RW
Fast Clock Enable. When set, the timer counter will use the CCLK clock
instead of the 570 ns clock. This function will reduce the simulation and test
time of the device.
1
0
TMRRST
R
RW
RO
Timer Reset. When set, this bit holds the multimedia timer in reset. The mul-
timedia timer is also reset by the system reset.
Reserved. This bit returns a zero.
MULTIMEDIA TIMER I/O SPACE REGISTERS
TABLE 70
TMSTAT (RW/RO) - MULTIMEDIA TIMER STATUS REGISTER
SONGBASE
D7
D6
D5
D4
D3
D2
D1
D0
R
R
R
R
TPLD
TRE-
TMINT
TINTEN
Offset 00h
POR Value
SUME
0
0
0
0
0
0
0
0
Bit
Name
R/W
RO
Function
7:4
3
R
Reserved. These bits return zeros.
TPLD
RW
Timer Preload Indicator. When set, this indicates the timer will start counting
from the values set in the timer count registers. When cleared, the timer will
start counting from zero or its last value when stopped
2
1
TRESUME
TMINT
RW
WC
Timer Resume. When set, the timer will resume counting at the next 570 ns
clock edge. When cleared, the timer will stop counting.
Timer Interrupt. When asserted, the multimedia timer has flagged an inter-
rupt when the timer has counted to zero. The timer will continue to count.
Writing a one to this bit will clear the interrupt.
0
TINTEN
RW
Timer Interrupt Enable. When set, the multimedia timer will generate an inter-
rupt.
MULTIMEDIA TIMER COUNT REGISTERS
There are three registers required to hold the timer value. These three registers can be read at different cycles, It is rec-
ommended that the least significant byte be read first for the most accuracy.
TABLE 71
TMCOUNT2 (RW/RO) - MULTIMEDIA TIMER COUNT REGISTER 2
SONGBASE
Offset 03h
POR Value
D7
R
D6
R
D5
R
D4
R
D3
D2
D1
D0
TMCOUNT2[7:0]
0
0
0
0
0
0
0
0
Bit
Name
R/W
Function
7:4
R
RO
Reserved. These bits return zeros.
1999 Nov 12
66
Philips Semiconductors
Preliminary Specification
TM
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
Bit
3:0
Name
R/W
Function
TMCOUNT2
RW
High Nibble Timer Count. This nibble is the most significant digits of the timer
value.
TABLE 72
TMCOUNT1 (RW) - MULTIMEDIA TIMER COUNT REGISTER 1
SONGBASE
Offset 02h
POR Value
D7
D6
D5
D4
D3
D2
D1
D0
TMCOUNT1[7:0]
0
0
0
0
0
0
0
0
Bit
Name
TMCOUNT1
R/W
Function
7:0
RW
Middle Byte Timer Count. This byte is the middle significant digits of the timer
value.
TABLE 73
TMCOUNT0 (RW) - MULTIMEDIA TIMER COUNT REGISTER 0
SONGBASE
Offset 01h
POR Value
D7
D6
D5
D4
D3
D2
D1
D0
TMCOUNT0[7:0]
0
0
0
0
0
0
0
0
Bit
Name
TMCOUNT0
R/W
Function
7:0
RW
Low Byte Timer Count. This byte is the least significant digits of the timer
value.
PCI I/O SPACE GPIO SUPPORT
The Multimedia Timer house eight General Purpose I/O ports. These ports are independently controlled under host
software.
TABLE 74
PGPIODIR (RW) - PCI GENERAL PURPOSE INPUT/OUPUT DIRECTION
SONGBASE
Offset 04h
POR Value
D7
D6
D5
D4
D3
D2
D1
D0
PGPIO_DIR[7:0]
0
0
0
0
0
0
0
0
Bit
Name
PGPIO_DIR
R/W
Function
7:0
RW
PCI General Purpose I/O Data Direction Bit. These bits control whether the
GPIO pins 0 through 7 act as an input or an output.
0 = Selected GPIO pin is an output.
1 = Selected GPIO pin is an input.
1999 Nov 12
67
Philips Semiconductors
Preliminary specification
ThunderBird Avenger PCI Audio
Accelerator
SAA7785
Data sheet status
[1]
Data sheet
status
Product
status
Definition
Objective
specification
Development
This data sheet contains the design target or goal specifications for product development.
Specification may change in any manner without notice.
Preliminary
specification
Qualification
This data sheet contains preliminary data, and supplementary data will be published at a later date.
Philips Semiconductors reserves the right to make changes at any time without notice in order to
improve design and supply the best possible product.
Product
specification
Production
This data sheet contains final specifications. Philips Semiconductors reserves the right to make
changes at any time without notice in order to improve design and supply the best possible product.
[1] Please consult the most recently issued datasheet before initiating or completing a design.
Definitions
Short-form specification — The data in a short-form specification is extracted from a full data sheet with the same type number and title. For
detailed information see the relevant data sheet or data handbook.
Limiting values definition — Limiting values given are in accordance with the Absolute Maximum Rating System (IEC 134). Stress above one
or more of the limiting values may cause permanent damage to the device. These are stress ratings only and operation of the device at these or
at any other conditions above those given in the Characteristics sections of the specification is not implied. Exposure to limiting values for extended
periods may affect device reliability.
Application information — Applications that are described herein for any of these products are for illustrative purposes only. Philips
Semiconductors make no representation or warranty that such applications will be suitable for the specified use without further testing or
modification.
Disclaimers
Life support — These products are not designed for use in life support appliances, devices or systems where malfunction of these products can
reasonably be expected to result in personal injury. Philips Semiconductors customers using or selling these products for use in such applications
do so at their own risk and agree to fully indemnify Philips Semiconductors for any damages resulting from such application.
Righttomakechanges—PhilipsSemiconductorsreservestherighttomakechanges, withoutnotice, intheproducts, includingcircuits,standard
cells, and/or software, described or contained herein in order to improve design and/or performance. Philips Semiconductors assumes no
responsibility or liability for the use of any of these products, conveys no license or title under any patent, copyright, or mask work right to these
products, and makes no representations or warranties that these products are free from patent, copyright, or mask work right infringement, unless
otherwise specified.
Philips Semiconductors
811 East Arques Avenue
P.O. Box 3409
Copyright Philips Electronics North America Corporation 1999
All rights reserved. Printed in U.S.A.
Sunnyvale, California 94088–3409
Telephone 800-234-7381
Date of release: 11-99
Document order number:
9397-750-06592
Philips
Semiconductors
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