參數(shù)資料
型號: SAA7377GP
廠商: NXP SEMICONDUCTORS
元件分類: 消費家電
英文描述: Force/Pressure transducer; Compensated; Pressure Range: 0 to 25 psi
中文描述: SPECIALTY CONSUMER CIRCUIT, PQFP64
文件頁數(shù): 24/56頁
文件大?。?/td> 311K
代理商: SAA7377GP
1998 Jul 06
24
Philips Semiconductors
Product specifications
Digital servo processor and Compact Disc
decoder (CD7)
SAA7377
7.13.3
F
OCUS SERVO SYSTEM
7.13.3.1
Focus start-up
Five initially loaded coefficients influence the start-up
behaviour of the focus controller. The automatically
generated triangle voltage can be influenced by
3 parameters; for height (ramp_height) and DC offset
(ramp_offset) of the triangle and its steepness
(ramp_incr).
For protection against false focus point detections two
parameters are available which are an absolute level on
the CA-signal (CA_start) and a level on the FE
n
signal
(FE_start). When this CA level is reached the FOK signal
becomes true.
If the FOK signal is true and the level on the FE
n
signal is
reached, the focus PID is enabled to switch on when the
next zero crossing is detected in the FE
n
signal.
7.13.3.2
Focus position control loop
The focus control loop contains a digital PID controller
which has 5 parameters which are available to the user.
These coefficients influence the integrating (foc_int),
proportional (foc_lead_length, part of foc_parm3) and
differentiating (foc_pole_lead, part of foc_parm1) action of
the PID and a digital low-pass filter (foc_pole_noise, part
of foc_parm2) following the PID. The fifth coefficient
foc_gain influences the loop gain.
7.13.3.3
Drop-out detection
This detector can be influenced by one parameter
(CA_drop). The FOK signal will become false and the
integrator of the PID will hold if the CA signal drops below
this programmable absolute CA level. When the FOK
signal becomes false it is assumed, initially, to be caused
by a black dot.
7.13.3.4
Focus loss detection and fast restart
Whenever FOK is false for longer than approximately
3 ms, it is assumed that the focus point is lost. A fast
restart procedure is initiated which is capable of restarting
the focus loop within 200 to 300 ms depending on the
programmed coefficients of the microcontroller.
7.13.3.5
Focus loop gain switching
The gain of the focus control loop (foc_gain) can be
multiplied by a factor of 2 or divided by a factor of 2 during
normal operation. The integrator value of the PID is
corrected accordingly. The differentiating (foc_pole_lead)
action of the PID can be switched at the same time as the
gain switching is performed.
7.13.3.6
Focus automatic gain control loop
The loop gain of the focus control loop can be corrected
automatically to eliminate tolerances in the focus loop.
This gain control injects a signal into the loop which is used
to correct the loop gain. Since this decreases the optimum
performance, the gain control should only be activated for
a short time (for example, when starting a new disc).
7.13.4
R
ADIAL SERVO SYSTEM
7.13.4.1
Level initialization
During start-up an automatic adjustment procedure is
activated to set the values of the radial error gain (re_gain),
offset (re_offset) and satellite sum gain (sum_gain) for TPI
level generation. The initialization procedure runs in a
radial open loop situation and is
300 ms. This start-up
time period may coincide with the last part of the motor
start-up time period.
Automatic gain adjustment: as a result of this
initialization the amplitude of the RE signal is adjusted to
within
±
10% around the nominal RE amplitude.
Offset adjustment: the additional offset in RE due to the
limited accuracy of the start-up procedure is less than
±
50 nm.
TPI level generation: the accuracy of the initialization
procedure is such that the duty factor range of TPI
becomes 0.4 < duty factor < 0.6 (definition of duty
factor = TPI HIGH/TPI period).
7.13.4.2
Sledge control
The microcontroller can move the sledge in both directions
via the steer sledge command.
7.13.4.3
Tracking control
The actuator is controlled using a PID loop filter with user
defined coefficients and gain. For stable operation
between the tracks, the S-curve is extended over
±
0.75 of
the track. On request from the microcontroller, S-curve
extension over
±
2.25 tracks is used, automatically
changing to access control when exceeding those
2.25 tracks.
Both modes of S-curve extension make use of a
track-count mechanism. In this mode, track counting
results in an ‘a(chǎn)utomatic return-to-zero track’, to avoid
major music rhythm disturbances in the audio output for
improved shock resistance.
相關PDF資料
PDF描述
SAA7377 Digital servo processor and Compact Disc decoder CD7
SAA7378GP Single Chip Digital Servo Processor and Compact Disc Decoder
SAA7380 Error correction and host interface IC for CD-ROM ELM
SAA7380GP Error correction and host interface IC for CD-ROM ELM
SAA7381 ATAPI CD-R block decoder
相關代理商/技術參數(shù)
參數(shù)描述
SAA7377GP/M1,518 功能描述:IC DIGITAL PROCESSOR/CD7 64QFP RoHS:是 類別:集成電路 (IC) >> 線性 - 視頻處理 系列:- 產(chǎn)品變化通告:Product Discontinuation 07/Mar/2011 標準包裝:3,000 系列:OMNITUNE™ 類型:調(diào)諧器 應用:移動電話,手機,視頻顯示器 安裝類型:表面貼裝 封裝/外殼:65-WFBGA 供應商設備封裝:PG-WFSGA-65 包裝:帶卷 (TR) 其它名稱:SP000365064
SAA7378GP 制造商:PHILIPS 制造商全稱:NXP Semiconductors 功能描述:Single Chip Digital Servo Processor and Compact Disc Decoder
SAA7380 制造商:PHILIPS 制造商全稱:NXP Semiconductors 功能描述:Error correction and host interface IC for CD-ROM ELM
SAA7380GP 制造商:PHILIPS 制造商全稱:NXP Semiconductors 功能描述:Error correction and host interface IC for CD-ROM ELM
SAA7381 制造商:PHILIPS 制造商全稱:NXP Semiconductors 功能描述:ATAPI CD-R block decoder
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