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5002R-CGT/F 参数 Datasheet PDF下载

5002R-CGT/F图片预览
型号: 5002R-CGT/F
PDF下载: 下载PDF文件 查看货源
内容描述: 双SCART音频/视频开关 [Dual SCART A/V Switch]
分类和应用: 开关
文件页数/大小: 30 页 / 435 K
品牌: TERIDIAN [ TERIDIAN SEMICONDUCTOR CORPORATION ]
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AVPro® 5002R  
Dual SCART A/V Switch  
DATA SHEET  
TV RGB Outputs  
Bit 7  
Bit 6  
Blank source  
0
0
1
1
0
1
0
1
BLANK = ABLANK  
BLANK = EBLANK  
BLANK = 0V  
The device accepts RGB video signals from two  
sources. The Aux_R, Aux_G, Aux_B input pins are  
typically connected to the auxiliary SCART connector.  
The Enc_R, Enc_G, Enc_B input pins are connected to  
the RGB outputs of an external video encoder device.  
These outputs are used as a video source for the TV  
SCART pins TV_R, TV_G, and TV_B. The RGB video  
source is selected by setting the lower three (3) bits of  
serial port Register 1. When these bits are set to  
xxxxx000, the RGB source will be the encoder. When  
these bits are set to xxxxx001, the source will be the  
auxiliary port. The TV RGB outputs can be muted  
independently from the TV composite outputs. Setting  
Bit 6 of Register 1 low (0) will allow normal operation.  
Setting Bit 6 high (1) will set the TV RGB outputs to the  
blank level.  
BLANK = 4V @ IC output pin  
The user must insure that the source of the Blank  
output is the same as the source for the RGB outputs,  
i.e. ABLANK is selected when the auxiliary RGB is  
active and EBLANK is selected when the encoder RGB  
is active.  
TV Composite Output  
The device provides inputs for two composite video  
sources that can be switched to the TV SCART  
composite video pin, TV_YCout. The Aux_YC input pin  
is typically connected to the “Video In” pin (pin 20) on  
the auxiliary SCART connector. The Enc_YC input pin  
is typically connected to the “YC” or “CVBS” output  
from the external video encoder device. Selection of  
the video source for the TV composite output is  
accomplished when the RGB video source is selected  
(see the register tables). When Register 1 is set to  
xxxxx000, the Encoder input is selected and when set  
to xxxxx001, the Auxiliary input is selected.  
RGB Gain: The gain of the RGB outputs can be  
adjusted to one of four different levels. Bits 4 and 5 in  
Register 2 set the gain of the RGB output amplifiers  
according to the following table:  
Bit 5  
Bit 4  
RGB Amplifier Gain  
0
0
1
1
0
1
0
1
Gain = 2 V/V = A0  
Gain = A0 - 10%  
Gain = A0 - 20%  
Gain = A0 - 30%  
TV SVHS Output Mode  
The device supports SVHS video format. The SVHS  
mode is selected for the TV SCART using the lower  
three (3) bits of Register 1(except for SVHS Enc 4  
mode). When the SVHS mode is selected, the  
TV_YCout pin will provide the luminance signal output  
from the selected source. The chroma output will be  
provided on the TV_R pin. The video source for SVHS  
mode can be either the auxiliary port or the encoder port.  
When the auxiliary port is selected as the video source,  
the video on Aux_R will be provided at the TV_R output  
pin and the Aux_YC video will be provided at the  
TV_YCout pin.  
DC Restore: The device will generate a DC restore level  
on each video output based on timing referenced to a  
horizontal sync pulse. When the sync pulse is detected,  
the DC restore circuit will act to position the blank level  
to 1.2V at the respective RGB output pins and the  
respective composite output pins (0.6V at the respective  
RGB and composite video output load). The device can  
be programmed to look for the horizontal sync pulse on  
all of the RGB input pins or on the associated composite  
video input pin (Aux_YC for the auxiliary port or Enc_YC  
for the external encoder). Bit 7 of Register 1 determines  
the horizontal sync source. At power-up, this bit defaults  
to a low (0) state, which programs the device to look for  
sync detect on the RGB input signals. In this mode, the  
device can detect a horizontal sync on any of the three  
RGB input signals. When Bit 7 is set to a high (1) state,  
the device will look for a sync detect from the signal on  
either the Aux_YC or Enc_YC pin depending on which  
source is selected.  
The device will support SVHS mode for four encoder  
interface formats. The first encoder interface format  
accepts chroma signals on the Enc_C pin and  
luminance signals on the Enc_Y pin. This is designated  
"SVHS, Enc 1" mode. The second format will receive  
chroma information on the Enc_B pin and luminance  
information on Enc_G. This format is designated  
"SVHS, Enc 2". The third format will receive chroma  
information from the Enc_R pin and luminance  
information from the Enc_G pin. This mode is  
designated “SVHS, Enc 3” on the serial port register  
table. For these three modes, audio will come from the  
Lin/Rin inputs. The fourth format is designated "SVHS  
Enc 4" (not available in the 48QFN package option). It is  
selected by setting register one to xx110xxx. Chroma  
information is received on the Enc2_C input pin.  
Blanking: The signal on the Blank output pin is  
determined by the state of two MSBs in Register 2  
according to the following table:  
Page: 3 of 30  
© 2008 TERIDIAN Semiconductor Corporation  
Rev 2.1  
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