40 Real-Time Counter Memory

Follow the steps below to reset the real-time counter to zero at a tape location you want to refer to later.

1

Play, fast forward, or rewind a tape to the location that you would like to refer to later. Stop the tape.

2

 

2

Press the STATUS/EXIT button. The real-time counter will

appear on the screen.

 

01:08 PM

STOP

 

CH10

 

 

SLP 1 : 23 : 45

3

While the counter remains on the screen, press the CLEAR button to reset the real-time counter to zero.

0 : 00 : 00

4

 

4

3

EJECT

POWER

 

 

 

MENU

STATUS/EXIT

CLEAR

1

2

3

4

5

6

7

8

9

SLEEP/

 

ALT.CH

WAKE UP

0

 

 

REC

 

PAUSE

/OTR

 

/STILL

PLAY

REW F.FWD

STOP

CH.VOL.

MUTE

FM

SPEED F.ADV

TRACKING MEMORY SLOW

While the counter remains on the screen, press the MEM- ORY button so that M appears on the screen. To erase a real-time counter memory, press the MEMORY button so that the M disappears from the screen.

M 0 : 00 : 00

5

To go to the tape location where you set the real-time counter to zero, press the REW(ind)/s button or the F.FWD/B button when playback is stopped. When the tape reaches the point at which you set the counter to zero, the tape will stop. Press the PLAY/o button to watch the tape.

1,5

Helpful Hints

The real-time counter memory will not function during Repeat Play mode. Details are on page 37.

You may only set one real-time counter memory at a time. If you set the real-time counter to zero at a second location, the previous real- time counter to zero setting will be lost.

Page 40
Image 40
Philips CCC133, CCC193 owner manual Real-Time Counter Memory, Appear on the screen

CCC133, CCC193 specifications

The Philips CCC193 and CCC133 are advanced single-chip solutions meticulously designed to elevate performance in modern electronic devices, particularly in the realm of consumer electronics. These models exemplify Philips' commitment to innovation and excellence, providing users with enhanced functionalities and superior performance.

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The CCC133 model, while slightly less advanced than the CCC193, still brings a robust offering to the table. It is designed primarily for entry-level applications but does not compromise on essential features. The CCC133 supports standard video playback and audio formats, making it suitable for budget-friendly televisions and basic multimedia players.

A significant advantage of the CCC133 is its compact size, allowing for easy integration into smaller electronic devices without sacrificing performance. The chip's architecture is optimized for low latency, making it suitable for applications where real-time audio and video synchronization is critical.

Both models demonstrate Philips' dedication to quality, with rigorous testing protocols ensuring reliability and longevity. Their modular design makes them adaptable for various applications, from low-end consumer products to high-performance equipment.

In conclusion, the Philips CCC193 and CCC133 represent a significant step forward in integrated circuit technology, combining essential features with innovative processing capabilities to meet the diverse needs of modern electronics. Whether it is high-end performance or budget-friendly solutions, these chips embody Philips' vision for the future of digital media technology.