|
|
|
Categories
|
|
Information
|
|
Featured Product
|
|
|
 |
|
|
There are currently no product reviews.
 ;
This is the ONLY copy of this manual I could find for a realistic price. Even Panasonic could not provide me with one.
The PDF is a very good copy and it helped me diagnose and find the fault with the unit I have.
;
Very complete and well reading drawings. Documentation is essential for successful repairs.Good documentation, with all that is necessary. This manual was what I was waiting with all the information necessary for the repairing I need it for. You must buy it if you want to do repairs or simply understand how it works.
 ;
Excellent service manual includes everything is need to repair this radio-caseete, how to disassemble, wiring diagram, all , waiting time until the download was only a few hours. I'm going to buy service manuals from here, are cheap and very good.Thank you.
;
Good service manual,i saved from scrapping this deck,is now fully functional.Thanks.
;
Found this to be the manual included with the original packinging, was helpfull but did not give any detailed repair instructions.
5. Transfer of Electric Charge by the Horizontal CCD The transfer system for the horizontal CCD emplays a 2-phase drive method.
VAA11701-R.3571.A
The electric charges sent to the final stage of the horizontal CCD are transferred to the floating diffusion, as shown in Fig. 1-6. RG is turned on by the timing in (1), and the floating diffusion is charged to the potential of PD. The RG is turned off by the timing in (2). In this condition, the floating diffusion is floated at high impedance. The H1 potential becomes shallow by the timing in (3), and the electric charge now moves to the floating diffusion. Here, the electric charges are converted into voltages at the rate of V = Q/C by the equivalent capacitance C of the floating diffusion. RG is then turned on again by the timing in (1) when the H1 potential becomes deep. Thus, the potential of the floating diffusion changes in proportion to the quantity of transferred electric charge, and becomes CCD output after being received by the source follower. The equivalent circuit for the output circuit is shown in Fig. 1-7.
���
�� �� �� �� �� ��� �� ������� �� ������������������ �� �� �� ������� �� �� ����� �� ���� �� ���� �� ��� ��� ���
���
��
��
��
��
�� ���
���
��
��
��
��
�� ���
�� ������� �������
�������������������� �������������� �����������
Fig. 1-6. Horizontal Transfer of CCD Imager and Extraction of Signal Voltage
����������������
������������������������������
6. Lens drive block 6-1. Shutter drive The lens driver IC (LB8649FN) is used to drive by the two shutter drive signals (SIN1, SIN2) which are output from the ASIC expansion port (IC106), and the shutter is opened and closed. 6-2. Focus drive The focus stepping motor drive signals (FIN1, FIN2, FIN3
���������������������
���������� �������������� ��������� ������
and FIN4) which are output from the ASIC expansion port (IC106) are used to drive by the lens driver IC (LB8649FN). Detection of the standard motoring positions is carried out by means of the photointerruptor (FPI) inside
��������������������������� ���������������������������� ������������ ������������
the lens unit. 6-3. Zoom drive The zoom stepping motor drive signals (ZIN1, ZIN2, ZIN3 and ZIN4) which are output from ASIC (IC102) are used to drive by the lens driver IC (LB8649FN). Detection of the standard zoom positions is carried out by means of photoreflector (ZPI) inside the lens unit. 6-4. Iris drive The iris motor drive signals (IIN1 and IIN2) which are output from the ASIC (IC102) are used to drive the lens driver IC (LB8649FN).
Fig. 1-7. Theory of Signal Extraction Operation
- E3 ï½¥ E2500 -
|
|
|
> |
|
