LC78622NE
5.
Tracking brake
The chart shows the relationships between the TES, HFL, and TOFF signals during the track jump C period. The TOFF signal is extracted from the
HFL signal by TES signal edges. When the HFL signal is high, the pickup is over the mirror surface, and when low, the pickup is over data bits.
Thus braking is applied based on the TOFF signal being high when the pickup is moving from a mirror region to a data region and being low when
the pickup is moving from a data region to a mirror region.
• JP three-value output
MSB
LSB
0
Command
RES = low
1
1
0
0
1
1
1
1
0
0
1
1
1
1
JP THREE VALUE OUTPUT
1
JP TWO VALUE OUTPUT (earlier scheme)
●
The JP three-value output command allows the track jump operation to be controlled from a single pin.
• Track check mode
MSB
LSB
0
Command
RES = low
1
1
1
1
1
1
1
1
1
1
1
1
0
1
1
0
0
1
0
0
1
TRACK CHECK IN
0
TRACK CHECK OUT
TWO BYTE COMMAND RESET
1
●
The LC78622NE will count the specified number of tracks plus one when the microprocessor sends an arbitrary
binary value in the range 8 to 254 after issuing either a track check in or a track check out command.
Note: Data for the desired track count must not be set to the general-purpose command $D9 to $DF.
No. 6015-16/31
SANYO [ SANYO SEMICON DEVICE ]
