Philips SAA7335GP-M0, SAA7335GP-M1, SAA7335HL-M1A, SAA7335HL-M2 Datasheet

DATA SH EET
Preliminary specification File under Integrated Circuits, IC01
1997 Aug 11
INTEGRATED CIRCUITS
SAA7335
DSP for CD and DVD-ROM systems
1997 Aug 11 2
Philips Semiconductors Preliminary specification
DSP for CD and DVD-ROM systems
SAA7335
FEATURES
Compatibility with CD-I, CD-ROM, MPEG-video DVD-ROM and DVD-video applications
Designed for very high playback speeds
Typical CD-ROM operation up to n = 12, DVD-ROM to
n = 1.9, maximum rates (tbf)
Matched filtering, quad-pass error correction (C1-C2-C1-C2), overspeed audio playback function included (up to 3 kbytes buffer)
Lock-to-disc playback, Constant Angular Velocity (CAV), pseudo-Constant Linear Velocity (CLV) and CLV motor control loops
Interface to 32 kbytes SRAM for DVD error correction and de-interleave
Sub-code/ header processing for DVD and CD formats
Programmable HF equalizer
In DVD mode it is still compatible with Philips block
decoders
Sub-CPU interface can be parallel or fast I
2
C-bus
On-chip clock multiplier.
GENERAL DESCRIPTION
This device is a high-end combined Compact Disc (CD) and Digital Versatile Disc (DVD) compatible decoding device. The device operates with an external 32 kbytes S-RAM memory for de-interleaving operations. The device provides quad-pass error correction for CD-ROM applications (C1-C2-C1-C2) and operates in lock-to-disk, CAV, pseudo CLV and CLV modes.
In DVD modes double-pass C1-C2 error correction is used which is capable of correcting up to 5 C1 frame errors and 16 C2 frame errors.
The SAA7335 contains all the functions required to decode an EFM or EFM+ HF signal directly from the laser pre-amplifier, including analog front-end, PLL data recovery, demodulation and error correction. The spindle motor interface provides both motor control signals from the demodulator and, in addition, contains a tachometer loop that accepts tachometer pulses from the motor unit.
The SAA7335 has two independent microcontroller interfaces. The first is a serial I
2
C-bus and the second is a standard 8-bit multiplexed parallel interface. Both of these interfaces provide access to a total of 32 × 8-bit registers for control and status.
This data sheet contains an descriptive overview of the device together with electrical and timing characteristics. For a detailed description of the device refer to the user guide
“SAU/UM96018”
.
Supply of this CD/DVD IC does not convey an implied license under any patent right to use this IC in any CD or DVD application.
QUICK REFERENCE DATA
SYMBOL PARAMETER MIN. TYP. MAX. UNIT
V
DDD
digital supply voltage 4.5 5.0 5.5 V
I
DDD
digital supply current 70 300 mA
V
DDA
analog supply voltage 4.5 5.0 5.5 V
I
DDA
analog supply current 70 300 mA
f
xtal
crystal input frequency 4 25 tbf MHz
T
amb
operating ambient temperature 20 +70 °C
T
stg
storage temperature 55 +125 °C
1997 Aug 11 3
Philips Semiconductors Preliminary specification
DSP for CD and DVD-ROM systems
SAA7335
ORDERING INFORMATION
BLOCK DIAGRAM
TYPE
NUMBER
PACKAGE
NAME DESCRIPTION VERSION
SAA7335GP LQFP100 plastic low profile quad flat package; 100 leads; body 14 × 14 × 1.4 mm SOT407-1
Fig.1 Simplified block diagram.
handbook, full pagewidth
MGK242
DEMODULATOR
EFM/EFM+
PLL BIT
DETECTOR
SRAM
32 KBYTES
SPINDLE
MOTOR CONTROL
motor control
SAA7335
CLOCK
GENERATOR
SUB-CPU
INTERFACE
ADCHF input
clock input
DECODER
block decoder output
I2S-BUS
OUTPUT
INTERFACE
1997 Aug 11 4
Philips Semiconductors Preliminary specification
DSP for CD and DVD-ROM systems
SAA7335
PINNING
SYMBOL PIN TYPE DESCRIPTION
V
SSA1
1 supply analog ground 1
I
ref
2 I analog current reference input for ADC REFLo 3 I analog low reference input for ADC REFHi 4 I analog high reference input for ADC VREF 5 I analog negative input HFIN 6 I analog positive input V
SSA2
7 supply analog ground 2 AGCOUT 8 O analog test pin output V
DDA2
9 supply analog supply voltage 2 V
DDD1
10 supply digital supply voltage 1
V
SSD1
11 supply digital ground 1 OTD 12 I off track detect input MOTO1 13 O 3-state motor control output n.c. 14 not connected, reserved MOTO2/T3 15 I/O motor control output/tachometer 3 input n.c. 16 not connected, reserved T1 17 I tachometer 1 input T2 18 I tachometer 2 input V
DDD2
19 supply digital supply voltage 2 V
SSD2
20 supply digital ground 2 TEST1 21 I test input 1 TEST2 22 I test input 2 POR 23 I power-on reset input MUXSWICH 24 I use clock multiplier input n.c. 25 not connected, reserved CL1 26 O divided clock output BCAIN 27 I BCA input SDA 28 I/O sub-CPU I
2
C-bus serial data input/output
SCL 29 I sub-CPU I
2
C-bus serial clock input INT 30 O sub-CPU interrupt output (open-drain) V
DDD3
31 supply digital supply voltage 3
V
SSD3
32 supply digital ground 3 da7 33 I/O sub-CPU data bus bit 7 input/output (parallel) da6 34 I/O sub-CPU data bus bit 6 input/output (parallel) da5 35 I/O sub-CPU data bus bit 5 input/output (parallel) n.c. 36 not connected, reserved da4 37 I/O sub-CPU data bus bit 4 input/output (parallel) n.c. 38 not connected, reserved da3 39 I/O sub-CPU data bus bit 3 input/output (parallel) da2 40 I/O sub-CPU data bus bit 2 input/output (parallel)
1997 Aug 11 5
Philips Semiconductors Preliminary specification
DSP for CD and DVD-ROM systems
SAA7335
da1 41 I/O sub-CPU data bus bit 1 input/output (parallel) n.c. 42 not connected, reserved da0 43 I/O sub-CPU data bus bit 0 input/output (parallel) V
DDD4
44 supply digital supply voltage 4 V
SSD4
45 supply digital ground 4 WRi 46 I sub-CPU write enable input (active LOW) RDi 47 I sub-CPU read enable input (active LOW) ALE 48 I sub-CPU address latch enable input CSi 49 I sub-CPU chip select input (active HIGH) STOPCLOCK 50 O stop clock output n.c. 51 not connected, reserved V4 52 O serial subcode output (for CD) EBUOUT 53 O digital audio output SYNC 54 O I
2
S-bus sector sync output
FLAG 55 O I
2
S-bus correction flag output
DATA 56 O I
2
S-bus serial data output
BCLK 57 I/O I
2
S-bus bit serial clock input/output
WCLK 58 I/O I
2
S-bus word clock input/output
V
DDD5
59 supply digital supply voltage 5 V
SSD5
60 supply digital ground 5 RAMRW 61 O RAM read/write control output n.c. 62 not connected, reserved RAMDA7 63 I/O RAM data bus bit 7 input/output RAMDA6 64 I/O RAM data bus bit 6 input/output RAMDA5 65 I/O RAM data bus bit 5 input/output RAMDA4 66 I/O RAM data bus bit 4 input/output RAMDA3 67 I/O RAM data bus bit 3 input/output RAMDA2 68 I/O RAM data bus bit 2 input/output n.c. 69 not connected, reserved RAMDA1 70 I/O RAM data bus bit 1 input/output RAMDA0 71 I/O RAM data bus bit 0 input/output V
DDD6
72 supply digital supply voltage 6 V
SSD6
73 supply digital ground 6 RAMAD0 74 O RAM address bit 0 output RAMAD1 75 O RAM address bit 1 output RAMAD2 76 O RAM address bit 2 output RAMAD3 77 O RAM address bit 3 output RAMAD4 78 O RAM address bit 4 output RAMAD5 79 O RAM address bit 5 output RAMAD6 80 O RAM address bit 6 output V
DDD7
81 supply digital supply voltage 7
SYMBOL PIN TYPE DESCRIPTION
1997 Aug 11 6
Philips Semiconductors Preliminary specification
DSP for CD and DVD-ROM systems
SAA7335
V
SSD7
82 supply digital ground 7 RAMAD7 83 O RAM address bit 7 output RAMAD8 84 O RAM address bit 8 output RAMAD9 85 O RAM address bit 9 output n.c. 86 not connected, reserved RAMAD10 87 O RAM address bit 10 output RAMAD11 88 O RAM address bit 11 output RAMAD12 89 O RAM address bit 12 output RAMAD13 90 O RAM address bit 13 output RAMAD14 91 O RAM address bit 14 output V
DDD8
92 supply digital supply voltage 8 V
SSD8
93 supply digital ground 8 CRIN 94 I analog crystal input CROUT 95 O analog crystal output CFLG 96 O correction statistics output MEAS1 97 O front-end telemetry output V
DDD9
98 supply digital supply voltage 9 V
SSD9
99 supply digital ground 9 V
DDA1
100 supply analog supply voltage 1
SYMBOL PIN TYPE DESCRIPTION
1997 Aug 11 7
Philips Semiconductors Preliminary specification
DSP for CD and DVD-ROM systems
SAA7335
Fig.2 Pin configuration.
handbook, full pagewidth
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
8079787776
RAMAD1 RAMAD0 V
SSD6
V
DDD6
RAMDA0 RAMDA1 n.c. RAMDA2 RAMDA3 RAMDA4 RAMDA5 RAMDA6 RAMDA7 n.c. RAMRW V
SSD5
V
DDD5
WCLK BCLK DATA FLAG SYNC EBUOUT V4 n.c.
MGK241
V
SSA1
I
ref
REFLo
REFHi
VREF
HFIN
V
SSA2
AGCOUT
V
DDA2
V
DDD1
V
SSD1
OTD
MOTO1
n.c.
MOTO2/T3
n.c.
T1 T2
V
DDD2
V
SSD2
TEST1 TEST2
POR
MUXSWICH
n.c.
RAMAD6
RAMAD5
RAMAD4
RAMAD3
RAMAD2
V
DDA1VSSD9VDDD9
MEAS1
CFLG
CROUT
CRIN
V
SSD8VDDD8
RAMAD14
RAMAD13
RAMAD12
RAMAD11
RAMAD10
n.c.
RAMAD9
RAMAD8
RAMAD7
V
SSD7VDDD7
V
DDD3
V
SSD3
da7
da6
da5
n.c.
da4
n.c.
da3
da2
da1
n.c.
da0
V
DDD4
V
SSD4
WRi
RDi
ALE
CSi
STOPCLOCK
CL1
BCAIN
SDA
SCL
INT
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
100
99989796959493929190898887868584838281
31323334353637383940414243444546474849
50
SAA7335
1997 Aug 11 8
Philips Semiconductors Preliminary specification
DSP for CD and DVD-ROM systems
SAA7335
FUNCTIONAL DESCRIPTION Analog front-end
This block converts the HF input to the digital domain using an 8-bit ADC proceeded by an AGC circuit to obtain the optimum performance from the convertor. This block is clocked by ADCCLK which is set by the external crystal frequency plus a flexible clock multiplier and divider block.
PLL and bit detector
This subsystem recovers the data from the channel stream. The block corrects asymmetry, performs noise filtering and equalisation and finally recovers the bit clock and data from the channel using a digital PLL.
The equalizer and the data slicer are programmable.
Digital logic
All the digital system logic is clocked from the master ADC clock (ADCCLK) described above.
Advanced bit detector
The advanced bit detector offers improved data recovery for multi-layer discs and contains two extra detection circuits to increase the margins in the bit recovery block:
1. Adaptive slicer: adds a second stage slicer with higher bandwidth
2. Run length 2 push-back: all T2 run lengths are pushed back to T3, thereby automatically determining the erroneous edge and shifting the transitions on that edge.
Demodulator
F
RAME SYNC PROTECTION CD MODE
This circuit detects the frame synchronization signals. Two synchronization counters are used in the SAA7335:
1. The coincidence counter: this is used to detect the coincidence of successive syncs. It generates a sync coincidence signal if 2 syncs are 588 ±1 EFM clocks apart.
2. The main counter: this is used to partition the EFM signal into 17-bit words. This counter is reset when:
a) A sync coincidence is generated b) A sync is found within ±6 EFM clocks of its
expected position.
The sync coincidence signal is also used to generate the lock signal which will go active HIGH when 1 sync coincidence is found. It will reset to LOW when, during 61 consecutive frames, no sync coincidence is found.
FRAME SYNC PROTECTION DVD MODE This circuit detects the frame synchronization signals.
Two synchronization counters are used in the SAA7335:
1. The coincidence counter: this is used to detect the coincidence of successive syncs. It generates a sync coincidence signal if 2 syncs are 1488 ±3 EFM+ clocks apart.
2. The main counter: this is used to partition the EFM+ signal into 16-bit words. This counter is reset when:
a) A sync coincidence is generated b) A sync is found within ±10 EFM+ clocks of its
expected position.
The sync coincidence signal is also used to generate the lock signal which will go active HIGH when 1 sync coincidence is found. It will reset to LOW when, during 61 consecutive frames, no sync coincidence is found.
EFM/EFM+ demodulation
The 14-bit EFM (16-bit EFM+) data and subcode words are decoded into 8-bit symbols.
1997 Aug 11 9
Philips Semiconductors Preliminary specification
DSP for CD and DVD-ROM systems
SAA7335
Microcontroller interface
The SAA7335 has two microcontroller interfaces, one serial I2C-bus and one parallel (8051 microcontroller compatible).
The two communication modes may be operated at the same time, the modes are described below:
1. Parallel mode: protocol compatible with 8052 multiplexed bus:
a) da0 to da7 = address/data bus b) ALE = Address Latch Enable, latches the address
information on the bus
c)
WRi = active LOW write signal for write to SAA7335
d) RDi = active LOW read signal for read from
SAA7335
e) CSi = active HIGH Chip Select signal (this signal
gates the RDi and WRi signals).
2. I2C-bus mode: I2C-bus protocol where SAA7335 behaves as slave device where:
a) SDA = I2C-bus data b) SCL = I2C-bus clock c) I2C-bus slave address (write mode) = 3EH d) I2C-bus slave address (read mode) = 3FH e) Maximum data transfer rate = 400 kbits/s.
M
ICROCONTROLLER INTERFACE (I
2
C-BUS MODE)
Bytes are transferred over the interface in single bytes of which there are two types; write data commands and read data commands.
The sequence for a write data command (1 data byte) is as follows:
Send START condition
Send address 3EH (write)
Write command address byte
Write data byte
Send STOP condition.
The sequence for a read data command (that reads 1 data byte) is as follows:
Send START condition
Send address 3EH (write)
Write status address byte
Send STOP condition
Send START condition
Send address 3FH (read)
Read data byte
Send STOP condition.
R
EADING AND WRITING DATA TO THE SAA7335
The SAA7335 has 32 × 8-bit configuration and status registers as shown in Table 1. Not all locations are currently defined and some remain reserved for future upgrades. These can be written to or read from via the microcontroller interface using either the serial or parallel control bus.
1997 Aug 11 10
Philips Semiconductors Preliminary specification
DSP for CD and DVD-ROM systems
SAA7335
REGISTER MAP
Table 1 SAA7335 microcontroller register map
ADDRESS
NAME R/W
BIT
DEC HEX 7 6 5 4 3 2 1 0
0 0 PLL_LOCK W Lock Oride Pha_Oset PLL_Force_L
PLL_Freq_R R PLL measured frequency (bits 9 to 2)
1 1 PLL_SET W SliceBW Integ_F0 PLLBW_F1 LP_BW_F3
PLL_ASSYM R PLL asymmetry value (8 bits)
2 2 PLL_FREQ W PLL frequency (8 MSBs)
PLL_Jit R jitter value (bits 9 to 2)
3 3 PLL_EQU W PLL frequency (2 LSBs) equalizer tap α 1 equaliser tap α 2
PLL_Lock_In R reserved Long_Symb F_Lock In_Lock
4 4 PLL_F_MEAS W RL3_EN reserved EFM nominal setting (101110)
reserved R −−−−−− − −
5 5 OUTPUT1 W Fmat(3 to 1) WCLK_Op BCLK_Op Fmat (0) SyncSwap (1 and 0)
reserved R −−−−−− − −
6 6 OUTPUT2 W EBU_Valid EBU_On EBU control bits 28, 29 EBU control bits (1 to 4)
reserved R −−−−−− − −
7 7 OUTPUT3 W WCLK_H_
Left
Descr_On Interp_On CD_ROM_
Header_On
Flag_Pin Kill Data On Kill EBU_On CD_ROM_
Scrb_On
reserved R −−−−−− − −
8 8 SEMA1 W general purpose semaphore register
R
9 9 SEMA2 W general purpose semaphore register
R
10 A SEMA3 W general purpose semaphore register
R
11 B INTEN W hardware pin interrupt enable bits (map to status bits)
Status R Fl_S1 Fl_S2 Fl_S3 PLL lock DVD rdy Mot Ov Tacho reserved
12 C MOTOR1 W frequency set point
SLICE1 R slice compensation value
13 D MOTOR2 W G(2 to 0) Ki Kf
EYE_Open R eye opening value
1997 Aug 11 11
Philips Semiconductors Preliminary specification
DSP for CD and DVD-ROM systems
SAA7335
14 E MOTOR3 W FIFO set point
MTR_F R −−−−−− − −
15 F MOTO4 W PWM_PDM OVF_SW SW2 SW1 motor servo control (3 to 0)
reserved R −−−−−− − −
16 10 MTR_INTG_L W motor integrator value (7 to 0)
R
17 11 MTR_INTG_H W motor integrator value (15 to 8)
R
18 12 CLOCKPRE W CL1Div BCLKG_En Div1 (2 to 0) Mux 2 Div2 (2 to 0)
SUB_C_STAT R ready busy CRC_OK err (2 to 0) cor fail reserved
19 13 DECMODE W mode reserved read TOC reserved
SUB_C_DATA R subcode data (7 to 0)
20 14 reserved W −−−−−− − −
SUB_C_End R no meaning (register read used as a signal)
21 15 ANASET W AGC_En gain set gain up gain down AGC_On reserved
FIFOFILL_L R number of C1 frames in FIFO
22 16 VITSET W slice ON AdDet ON FEndAutoS
ON
BCA_STAT R Buff_
Loaded
sync Buff_ORun
23 17 TACHO1 W tachometer multiplier frequency KTacho (7to0)
BCA_DATA R BCA data (7 to 0)
24 18 TACHO2 W tachometer interrupt trip frequency tachometer trip (7 to 0)
reserved R −−−−−− − −
25 19 TACHO3 W servo control source Tacho
FRes
Moto2_T3 Fsam TachoInt_LF reserved
reserved R −−−−−− − −
26 1A BCASET W BCA_Freq (7 to 0)
reserved R −−−−−− − −
27 to311B to1Freserved −−−−−− − −
ADDRESS
NAME R/W
BIT
DEC HEX 7 6 5 4 3 2 1 0
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