Sony Digital Camera XCD SX910CR XCD SX710CR XCD SX910UV XCD SX910 XCD SX710 User Manual

A-BS3-100-13 (1)  
Digital Video  
Camera Module  
Technical Manual  
XCD-SX910CR/X710CR (Color model)  
XCD-SX910UV (Ultraviolet-range model)  
XCD-SX910/X710 (Black and white model)  
2003 Sony Corporation  
 
Overview  
The XCD-SX910CR/SX910UV/SX910 with its 1/2-  
type PS IT CCD, and the XCD-X710CR/X710 with its  
1/3-type PS IT CCD are high-resolution industrial-use  
digital video camera modules. Utilizing an IEEE 1394-  
1995 digital interface, transfer rates as high as 400  
Mbps are realized. In addition, the use of digital  
signals enables industrial-use image processing  
without “image deterioration,” an important plus in the  
industrial world. Moreover, the use of a square pixel  
CCD eliminates the need for aspect ration conversion  
during image processing.  
Main Features  
The XCD-SX910CR/SX910UV/SX910 video  
camera module utilizes a 1/2-type PS IT  
CCD, and the XCD-X710CR/X710 utilizes a  
1/3-type PS IT CCD  
RAW mode output using the RGB Bayer  
pattern (XCD-SX910CR/X710CR only)  
Finally, a vibration resistance feature permits use of  
these units in all types of inspection and imaging  
devices.  
High-speed digital interface IEEE1394  
High-resolution  
What is the IEEE1394?  
The IEEE1394 is the standard serial bus for sending  
and receiving digital data. It is prescribed as “IEEE*  
Std. 1394-1995.”  
The XCD-SX910CR/SX910UV/SX910 adopts an  
SXGA-compatible 1.45 M-pixel CCD while the XCD-  
X710CR/X710 adopts an XGA-compatible 800 Kpixel  
CCD to produce high-picture quality images.  
The most outstanding feature of this interface is that it  
realizes transfer speeds of up to 400 Mbps and can  
handle large image data size. The interface is also  
capable of “Isochronous transmission” which transmits  
data real-time, for up to 64 channels. Connectors can  
be inserted and disconnected while the unit is turned  
on, and no terminators and no ID settings such as those  
necessary for the SCSI interface are required.  
External trigger function  
The external trigger shutter function allows the image  
exposure to be coordinated with external equipment  
and moving objects.  
* The Institute of Electrical and Electronics Engineers, Inc.  
For exposure time, the unit is equipped with Trigger  
Mode 0, which indicates the length of the exposure  
using the shutter parameter, and Trigger Mode 1,  
which controls exposure time by the width of the  
trigger signal.  
It is also able to utilize a software trigger initiated by a  
command from a program running on a host computer.  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
3
 
 
Overview  
Partial scan output image format  
It is equipped with a partial scan feature that divides an  
entire screen image into 16 × 16 sections, allowing it  
to be output as an optionally designated rectangle  
within the required limits.  
Use of this function enables frame rates faster than  
normal speeds, thus enabling efficient image capture.  
In addition, partial scan operations can be carried out  
even without the input of an external trigger.  
C-mount  
High vibration-resistance structure  
Binning  
The unit is equipped with a Binning mode, which  
increases the frame rate and increases the sensitivity  
based on mixing the pixel data on the CCD imager.  
The XCD-SX910UV/SX910 provides a screen size of  
640 × 480, and on-screen movement at 30 fps is  
available; the XCD-X710 provides a screen size of 512  
× 384, and on-screen movement of 50 fps.  
Black & white (Monochrome) 16-bit mode  
A Black & white (Monochrome) 16-bit mode is  
available. The bits used are the least significant  
(lowest) 10 bits.  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
4
 
Overview  
System Components  
The XCD-SX910CR/SX910UV/SX910/X710CR/  
X710 Video Camera Module system comprises the  
following components.  
C-mount Lens  
VF2509 (Canon)  
IEEE1394 Cable  
(6-pin, 4.5 m)  
Video Camera Module  
XCD-SX910CR/SX910UV/SX910  
XCD-X710CR/X710  
Tripod Adapter  
VCT-ST70I (Isolated type)  
Host Adapter Card  
(Commercially available)  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
5
 
 
Overview  
Connection Diagram  
XCD-SX910CR/SX910UV/SX910  
XCD-X710CR/X710  
C-mount Lens  
IEEE1394 Cable  
e
c
terfa  
l In  
ita  
ig  
D
Recommended Lens: VF2509  
(Canon)  
Host Adapter Card  
Host Equipment (PC, etc.)  
Tripod Adapter  
VCT-ST70I  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
6
 
 
Overview  
Location of Parts and Operation  
Front/Top/Bottom  
Rear Panel  
1
5
2
Digital Interface  
TRIG IN  
3
6
TRIG GND  
7
TRIG IN  
4
3
2
1
1 Lens mount (C-mount)  
5 CAMERA connector  
Attach any C-mount lens or other optical equipment.  
Connect the IEEE1394 camera cable (supplied) to this  
connector.  
Note  
6 Pilot lamp  
This lamp indicates the camera module operation  
states:  
The lens must not project more than 7 mm (9/32 inch)  
from the lens mount.  
1 Lens mount face 2 7 mm (9/32 inch) or less  
OFF: Camera power OFF  
Green: Camera power ON/Video signal output OFF  
Orange: Camera power ON/Video signal output ON  
2 Reference holes (Top)  
3 Reference holes (Bottom)  
These precision screw holes are for locking the camera  
module. Locking the camera module into these holes  
secures the optical axis alignment.  
7 TRIG IN/Exposure OUT connector  
Connect the trigger signal generator (trigger output  
connector) to this connector.  
When trigger is OFF, or software trigger is ON, a  
signal that indicates the exposure time is output from  
the BNC connector of the camera.  
4 Tripod adaptor screw holes  
Screw the tripod adaptor VCT-ST70I into the four  
screw holes when you use a tripod.  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
7
 
 
Functions  
The relationship between the parameter and the  
exposure time is given by the following formulas.  
Where  
Brightness  
This camera supports brightness control. This makes  
fine adjustment of the black level possible. (The  
former model, XCD-SX910/X710 (firmware version  
1.07) does not support brightness control.)  
P = Parameter (003h ~ 424h)  
E = Exposure time (s)  
P >= 3 ~ P <= 1000  
P2  
E =  
1
1000000  
P > 1000 ~ P <= 1150  
E = (P – 1000) 0.1 + 1  
Gain  
2
Both Manual and Auto Gain setting are available with  
this camera.  
*
Setting examples  
The variable range extends from 0 to 18 dB (XCD-  
*
SX910CR/X710CR)/0 to 24 dB (XCD-SX910UV /  
3 (003h) : 9 µs (1/100000)  
32 (020h) : 1 ms (1/1000)  
100 (064h) : 10 ms (1/100)  
1000 (3E8h) : 1 s  
*
*
SX910 /X710 ), and the unit is designed so that the  
gain can be subdivided and set to any of 640 steps.  
At the factory default setting, the gain is set to 0 dB.  
When Auto gain is selected, the gain is adjusted  
automatically, based on the brightness of the subject.  
At this time, the reference level (target point) is set in  
the AutoExposure register.  
1010 (3F2h) : 2 s  
1150 (47Eh) : 16 s  
For details on Auto Exposure, see page 9.  
16 s  
The XCD-SX910CR/SX910UV/SX910 and XCD-  
X710CR/X710 are not compatible with the XCD-  
SX900 and XCD-X700 in Gain settings.  
*: If you set the gain to +18 dB or higher, the S/N ratio will  
be severely degraded. Note this characteristic when you  
use the XCD-SX910UV/SX910/X710.  
2
1 s  
Shutter  
1
This camera allows both Manual and Auto Shutter  
setting.  
10 µs  
3
1000 1150  
The variable range extends from 10 microseconds to  
17.5 seconds; relative control values are indicated by a  
12-bit integer, and absolute control values are  
indicated using a 32-bit floating point value.  
The shutter settings for the XCD-SX910CR/  
SX910UV/SX910 and XCD-X710CR/X710 are the  
same, but these settings differ from some of those for  
the XCD-SX900 or XCD-X700.  
When Auto Shutter is selected, the exposure time is  
adjusted automatically, based on the brightness of the  
subject. At this time, the reference level (target point)  
is set in the AutoExposure register.  
For details on Auto Exposure, see page 9.  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
8
 
 
Functions  
For long exposure times  
Trigger Shutter  
When exposure times longer than the currently set  
frame rate cycle are set, the camera enters the long  
exposure time mode, and the actual frame rate is  
slowed in accordance with the exposure time.  
Trigger shutter is useful for capturing images in  
response to a trigger that starts the exposure to match a  
preset timing. It can also be used to capture an image  
using multiple cameras with the same timing. When a  
trigger shutter is used, the required trigger is input via  
the BNC connector on the rear panel. The input signal  
is a 5-volt negative pulse. The falling edge of the  
signal is detected as the trigger, and the unit is  
equipped with an exposure time consisting of the  
shutter parameter set as trigger mode 0, and trigger  
mode 1 that controls the exposure timing using the  
width of the trigger signal pulse. When trigger mode 0  
is used, the minimum width of the trigger is 10  
microseconds. When trigger mode 1 is used, there is  
no limit to the exposure time.  
Absolute Control Value for the  
Shutter  
Control of exposure time using absolute values is  
possible. The values are indicated using a 32-bit  
floating point value. (Unit: sec.)  
The control steps are synchronized with the pixel  
clock, and as the pixel clock is 30.5 MHz, one step is  
approximately 32.8 ns.  
The range for these values extends from 10  
microseconds to 17.5 seconds.  
This unit can also be used with a software trigger that  
issues the trigger signal via a software command. Both  
trigger mode 0 and trigger mode 1 can be used with  
software triggers.  
Programming example;  
union {  
DWORD  
float  
dwValue;  
fValue;  
// 1394 is expressed in quadlets,  
Trigger shutter  
// exposure time is indicated in seconds.  
} AbsoluteShutterValue;  
AbsoluteShutterValue.fValue = Exposure time;  
4.0 – 5.0 Vp-p  
WriteQuad(AbsoluteShutterOffsetAddress,  
AbsoluteShutterValue.dwValue);  
10 µsec or more  
WriteQuad is a virtual function used to write in the  
register.  
• Input impedance: 10 kΩ  
AbsoluteShutterOffsetAddress is an offset address for  
the absolute value control. See page 25 for the formula  
for the offset address.  
Auto Exposure  
AutoExposure is a function that automatically adjusts  
the gain and shutter settings, based on the brightness of  
the subject. When this function is used, make sure the  
video mode is set to one of the following modes. This  
function is not effective in any other modes.  
XCD-SX910CR/SX910UV/SX910 Format2Mode2 (1280 × 960) 15 fps TriggerOFF  
XCD-X710CR/X710  
Format1Mode5 (1024 × 768) 30 fps TriggerOFF  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
9
 
 
Functions  
Pan/Tilt  
Memory Channels  
Pan/Tilt is a function used to move a camera up and  
down or left and right, however this camera supports a  
video mode much smaller than the CCD’s effective  
pixels by cutting out images from the whole screen.  
You can specify the portion to be cut out using Pan/  
Tilt commands. One unit of movement is two pixels.  
Refer to the table for the video modes in which Pan/  
Tilt commands can be used and the variable ranges for  
the mode. The values in parentheses are the initial  
settings.  
This camera is equipped with two channels non-  
volatile memory to hold camera settings.  
The settings of all camera features and the video mode  
can be stored.  
The camera memorizes the channel most recently used  
to read out the setting information, and retains it, even  
if the power is turned off. Therefore, the camera loads  
the information from that channel when the power is  
turned on.  
The video mode settings are loaded only when the  
power is turned on.  
To start up the camera with the desired setting, perform  
the following procedure.  
XCD-SX910CR/SX910UV/SX910 XCD-X710CR/X710  
Pan  
Tilt  
Pan  
Tilt  
Format0Mode5  
0 - 752  
(376)  
0 - 560  
(280)  
0 - 384  
(192)  
0 - 288  
(144)  
1 Make changes to the camera features or the video  
mode settings.  
2 Store the current setting in Memory Channel 1 or  
Memory Channel 2.  
640 × 480  
Format0Mode6  
0 - 752  
(376)  
0 - 560  
(280)  
0 - 384  
(192)  
0 - 288  
(144)  
640 × 480  
Format1Mode2  
0 - 592  
(296)  
0 - 440  
(220)  
0 - 224  
(112)  
0 - 168  
(84)  
3 Load the information that was stored in step 2.  
800 × 600  
Format1Mode5  
0 - 368  
(184)  
0 - 272  
(136)  
Not  
Not  
Thus, when you start up the camera the next time,  
the settings that you have made will be loaded  
automatically.  
1024 × 768  
available  
available  
Format1Mode6  
0 - 592  
(296)  
0 - 440  
(220)  
0 - 224  
(112)  
0 - 168  
(84)  
800 × 600  
Format1Mode7  
0 - 368  
(184)  
0 - 272  
(136)  
Not  
Not  
Using the CameraInitialize command, the setting  
information stored in the channels is cleared and the  
camera features and the video mode are initialized. To  
preserve the information in the channels, be sure not to  
send the CameraInitialize command while driver  
software or application software is starting up.  
The value of Pan/Tilt is initialized when the video  
mode is changed. To preserve the value, be sure not to  
change the video mode while driver software or  
application software is starting up, or before sending  
the video start command.  
1024 × 768  
available  
available  
Format2Mode2  
0 - 112  
(56)  
0 - 80  
(40)  
1280 × 960  
Format2Mode6  
0 - 112  
(56)  
0 - 80  
(40)  
1280 × 960  
Format7Mode3  
0 - 16  
(8)  
0 - 16  
(8)  
1376 × 1024  
Format7Mode4  
0 - 368  
(184)  
0 - 16  
(8)  
1024 × 1024  
When a video mode is changed, the initial Pan/Tilt  
values for the mode are set.  
On the XCD-SX910CR/X710CR, if you set the value  
of Pan/Tilt to maximum, the pixels on the edge of the  
picture may not be output correctly.  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
10  
 
 
Functions  
Partial Scan  
The partial scan mode is a function for outputting part  
of the full images a region of interest on the whole  
image. Based on the unit cell as the unit, continuous  
parts can be selected. Only rectangles can be selected.  
The screen cannot be cut in convex and L  
shapes.  
Cutting by partial scan mode  
Horizontal (Horizontal Direction)  
The unit size of both the XCD-SX910CR/SX910UV/  
SX910 and the XCD-X710CR/X710 is 1/256th of the  
whole screen, divided into 16 sections, horizontally  
and vertically.  
The partial scan mode for the XCD-SX910CR/  
SX910UV/SX910 and the XCD-X710CR/X710 has  
had a partial read out function added, and there is a  
frame rate speed-up feature for use when the vertical  
width of the cut-out is small. But because of the  
structure of the CCD, no matter how small the cut-out  
width is horizontally, the frame rate cannot be  
increased.  
When Partial scan mode is used, set Format7, Mode 0.  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
11  
 
 
Functions  
Binning Mode  
The mode used when the sensitivity is increased and  
the frame rate is multiplied based on mixing the CCD  
pixel data, is called the Binning mode.  
There are two types of binning: 1 × 2 binning when the  
output image is compressed in the vertical direction  
only, and 2 × 2 binning when the image is compressed  
in the horizontal direction also.  
When binning mode is used, set either Format7 Mode  
1 (2 × 2 binning), or Format7 Mode 2 (1 × 2 binning).  
The specifications for each model are given below.  
XCD-SX910UV/SX910  
XCD-X710  
512 × 384  
Mono8  
15/7.5 fps Mono16  
1024 × 384  
Mono8  
15/7.5 fps Mono16  
Format7Mode1  
640 × 480  
Mono8  
(2 × 2 binning)  
30/15 fps  
50/25 fps  
Mono16  
25/12.5 fps  
Format7Mode2  
1280 × 480  
Mono8  
(1 × 2 binning)  
30/15 fps  
50/25 fps  
Mono16  
25/12.5 fps  
Partial scan is not available in Binning Mode.  
Be careful. If the exposure time is set slower than the  
frame rate in the shutter setting, the frame rate may  
also drop with respect to the exposure time.  
Format7 Mode3/4 for  
XCD-SX910CR/  
SX910UV/SX910  
Only the XCD-SX910CR/SX910UV/SX910 supports  
Format7, Mode3 and Mode4.  
XCD-SX910CR/SX910UV/SX910  
Format7Mode3  
Format7Mode4  
1376 × 1024  
Mono8  
15/7.5 fps  
Mono16  
7.5/3.75 fps  
1024 × 1024  
Mono8  
15/7.5 fps  
Mono16  
7.5/3.75 fps  
Partial scan is not available in these modes.  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
12  
 
 
Functions  
Frame Rate Settings  
for Format 7  
1394 Bus  
Synchronization  
For Format 7, the offset address 600h frame rate  
settings are disabled, but with this camera, the frame  
rates for Modes 1 to 4 are determined by the packet  
size.  
Timing used to start exposure is synchronized with the  
1394 bus time cycle register.  
If cameras are connected in a bus connection, they are  
automatically synchronized in a 1394 bus operation.  
As 400 Mbps frequency area restriction can affect the  
synchronization, you must set the video mode in which  
the cameras can transmit video signal at the same time.  
1394 synchronization does not work in long exposure  
mode. In a long exposure, the exposure time is set  
longer than the image transmission cycle.  
XCD-SX910CR/SX910UV/SX910 XCD-X710CR/X710  
Format7  
Frame  
rate  
Packet  
size  
Frame  
rate  
Packet  
size  
30  
1280  
640  
50  
1536  
768  
1536  
768  
3072  
1536  
3072  
1536  
Mono8  
15  
15  
25  
25  
12.5  
50  
25  
25  
12.5  
Mode1  
Mode2  
Mode3  
Mode4  
1280  
640  
Mono16  
Mono8  
Mono16  
Mono8  
Mono16  
Mono8  
Mono16  
CPU operation timing can cause jitter in 1394 bus  
synchronization. (Approx. 4 µsec)  
Hardware external synchronization will ensure further  
accuracy.  
7.5  
30  
2560  
1280  
2560  
1280  
2752  
1376  
2752  
1376  
2048  
1024  
2048  
1024  
15  
15  
7.5  
15  
7.5  
7.5  
3.75  
15  
ExposureOut  
When trigger is OFF, or software trigger is ON, a  
signal that indicates the exposure time is output from  
the BNC connector of the camera.  
7.5  
7.5  
3.75  
+5 V  
1 kΩ  
16-bit Mode  
The camera supports 16-bit Black & white  
(Monochrome) mode, but because the output of the AD  
converter is 10-bit, only the least significant 10 bits of  
the 16 bits will handle data. The upper 6 bits will be  
filled with zeros.  
exposure  
time  
The LOW period that is given by an output wave form  
is an approximate guideline. It does not correspond  
exactly to the actual exposure time.  
000000dd | dddddddd  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
13  
 
 
Functions  
White Balance  
(XCD-SX910CR/X710CR only)  
You can adjust the R and B gain with respect to G.  
Shoot a white object and adjust the two gains to  
standardize the signal levels of R, G, and B.  
Hue  
(XCD-SX910CR/X710CR only)  
You can adjust the G gain. Use this feature when you  
cannot obtain the correct white balance using the R  
and B gain.  
Optical Filter  
(XCD-SX910CR/X710CR only)  
You can change the Bayer patterns by moving the  
starting position from which to output pixel data by  
one position up, down, right, or left.  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
14  
 
 
Control  
The remaining 28 bits can be allocated to the camera  
as addresses, but in reality, the first 4 bits are fixed at  
0, so the largest number of bits that can be allocated to  
the camera as address space is 24 bits. The bus and  
node IDs may be changed if the topology is re-  
structured because of bus reset, so only the least  
significant 32 address bits are shown in this User’s  
Guide.  
Camera Command  
Status Register  
This camera complies with IIDC 1394-based Digital  
Camera Specification, Version 1.30 (hereinafter  
referred to as IIDC v1.30).  
The standards document can be purchased from  
1394TA (the 1394 Trade Association). Because it is  
very helpful in understanding the explanations in this  
Technical Manual, we recommend that you purchase a  
copy of IIDC v1.30.  
Address  
F0000000  
F0000400  
F0F00000  
Register  
Base address  
ConfigROM area  
Base addresses for camera commands  
CameraInitialize  
Video Format Inq  
Video Mode Inq  
F0F00000  
F0F00100  
F0F00180  
F0F00200  
Memory Map  
Frame Rate Inq  
F0F002E0 Format7 CSR Inq  
1394 devices have a 64-bit address space. The upper  
10 bits show the bus ID (0~1023), and the next six bits  
show the node ID (0~63). The IIDC standards require  
the next 20 bits to be 1.  
F0F00400  
F0F00500  
F0F00600  
Basic Func Inq  
Feature Element Inq  
Isochronous Control register  
F0F0071C AbsoluteControlCSR Inq for Shutter  
---BusID---  
--------(Must be 1)-------- ----(Address used by the camera)----  
NodeID  
F0F00800  
F0F00970  
FeatureControl  
AbsoluteControlCSR for Shutter  
bbbbbbbb | bbnnnnnn | 11111111 | 11111111 | 11110000 | 11110000 | 00000000 | 00000000  
F0F10000  
F0F11000  
F0F12000  
F0F13000  
Format7Mode0 CSR  
Format7Mode0 CSR  
Format7Mode0 CSR  
Format7Mode0 CSR (SX910CR/SX910UV/  
SX910 only)  
F0F14000  
Format7Mode0 CSR (SX910CR/SX910UV/  
SX910 only)  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
15  
 
 
Control  
ConfigROM  
Offset  
0-7  
04  
31  
20  
08  
00  
8-15  
1F  
16-23  
24-31  
Bus  
400h  
404h  
408h  
40ch  
410h  
414h  
418h  
41ch  
420h  
424h  
ROM CRC  
Info  
33  
39  
60  
46  
00  
34  
00  
02  
37  
Block  
FF  
00  
NodeVendorID/ChipID-Hi  
ChipID-Lo  
0B  
Root  
0004  
CRC  
Directory  
03  
0C  
8D  
D1  
08  
00  
00  
00  
00  
83  
00  
00  
46  
C0  
02  
04  
ModuleVendorID  
IndirectOffset  
UnitDirectoryOffset  
With the exception of bits 8 to 15 of the 400h offset  
address field, the length of the entire ConfigROM is  
made up of 1Fh Quadlets. So the ConfigROM from  
400h to 47Fh is 128 bytes.  
previous models, this field has been retained in this  
model, but in writing drivers and software  
applications, be sure to ignore this field. For a  
NodeUniqueID, use NodeVendorID/ChipID-Hi +  
ChipID-Lo.  
Offset address 420h and key code 8Dh indicate a  
NodeUniqueID Leaf offset, but in 1394a-2000, this  
field has been eliminated. To ensure compatibility with  
The UnitDirectory offset address is required to be  
424h +000004h * 4 = 434h  
Offset  
434h  
438h  
43Ch  
440h  
0-7  
8-15  
16-23  
24-31  
CRC  
Unit  
0003  
Directory  
12  
13  
00  
00  
00  
A0  
01  
00  
2D  
02  
01  
UnitSpecID  
UnitSoftwareVersion  
UnitDependentDirectory Offset  
D4  
For offset address 434h, the length of the  
The offset address of UnitDependentInfo is required to  
UnitDirectory is 3 Quadlets. UnitSpecID (00A02Dh)  
conforms to 1394TA standards. UnitSoftwareVersion  
(000102h) conforms to IIDC Standards, Version 1.30.  
be  
440h + 000001h * 4 = 444h  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
16  
 
 
Control  
Offset  
444h  
448h  
44ch  
450h  
0-7  
8-15  
16-23  
24-31  
Unit  
0003  
CRC  
Dependent  
Info  
40  
81  
82  
3C  
00  
00  
00  
00  
00  
00  
02  
05  
CommandRegsBase  
VendorNameLeaf  
ModelNameLeaf  
For offset address 444h, the length of the  
UnitDependentInfo is 3 Quadlets.  
The offset address of VendorNameLeaf is required to  
be  
44Ch + 000002h * 4 = 454h  
CommandRegsBase is the base address of the camera  
control register.  
The offset address of ModelNameLeaf is required to  
F0000000h + 3c0000h * 4 = F0F00000h  
be  
450h + 000005h * 4 = 464h  
VendorNameLeaf  
Offset  
454h  
448h  
44ch  
450h  
0-7  
8-15  
16-23  
24-31  
Vendor  
Name  
Leaf  
0003  
CRC  
00  
00  
00  
53  
00  
00  
4F  
00  
00  
4E  
00  
59  
“SONY”  
For offset address 454h, the length of the  
VendorNameLeaf is 3 Quadlets. The subsequent 8  
bytes are fixed at 00. After that, the four characters for  
“SONY” are entered.  
ModelNameLeaf  
Offset  
464h  
468h  
46ch  
470h  
474h  
478h  
47Ch  
0-7  
8-15  
16-23  
24-31  
Model  
Name  
Leaf  
0006  
CRC  
00  
00  
58  
53  
30  
2E  
00  
00  
43  
58  
20  
30  
00  
00  
44  
39  
76  
30  
00  
00  
2D  
31  
31  
41  
“XCD-”  
“SX91”  
“0 v1”  
“.00A”  
For offset address 464h, the length of the  
ModelNameLeaf is 6 Quadlets. The subsequent 8 bytes  
are fixed at 00.  
For the XCD-SX910CR/SX910UV/SX910, the 16  
characters “XCD-SX910 v1.00A” come next. For the  
XCD-X710CR/X710, the15 characters are “XCD-  
X710 v1.00A”.  
Model names are subject to change with the upgrade of  
firmwares.  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
17  
 
Control  
Format7  
Control Base Address  
Every register address is decided based on the base  
address found in the CommandRegsBase field of  
ConfigROM. F0F00000h is the control base address  
on this camera.  
Data  
CD-SX910CR/SX910UV/SX910 XCD-X710CR/X710  
F8000000h E0000000  
Address  
X
F0F0019Ch  
We find that the XCD-SX910CR/SX910UV/SX910  
supports video modes 0, 1, 2, 3 and 4 of Format7, and the  
XCD-X710CR/X710 supports video modes 0, 1 and 2 of  
Format7.  
Next, for each video mode, we will find out which  
frame rates are supported.  
Inquiring Supported  
Video Modes  
Data  
Address  
XCD-SX910CR/SX910UV/SX910 XCD-X710CR/X710  
F0F00214h  
70000000h  
60000000h  
30000000h  
F0000000h  
60000000h  
E0000000h  
F0000000h  
E0000000h  
78000000h  
70000000h  
38000000h  
F8000000h  
70000000h  
F0000000h  
First, we will find out what video formats are  
supported.  
(Format0Mode5)  
F0F00218h  
(Format0Mode6)  
Data  
F0F00228h  
Address  
X
CD-SX910CR/SX910UV/SX910 XCD-X710CR/X710  
E1000000h C1000000h  
(Format1Mode2)  
F0F00100h  
F0F00234h  
(Format1Mode5)  
We find that the XCD-SX910CR/SX910UV/SX910  
supports Format0/1/2/7, and the XCD-X710CR/X710  
supports Format0/1/7.  
F0F00238h  
(Format1Mode6)  
F0F0023Ch  
(Format1Mode7)  
Next, for each format, we will find out which video  
modes are supported.  
F0F00248h  
(Format2Mode2)  
F0F00258h  
Format0  
(Format2Mode6)  
Data  
CD-SX910CR/SX910UV/SX910 XCD-X710CR/X710  
06000000h 06000000h  
Address  
X
Based on the data above, the formats, modes, and  
frame rates supported are shown in the tables below.  
F0F00180h  
We find video modes 5 and 6 of Format0 are supported.  
Format1  
Data  
CD-SX910CR/SX910UV/SX910 XCD-X710CR/X710  
27000000h 27000000h  
Address  
X
F0F00184h  
We find video modes 2, 5, 6 and 7 of Format1 are  
supported.  
Format2 (XCD-SX910CR/SX910UV/SX910 only)  
Data  
Address  
X
CD-SX910CR/SX910UV/SX910 XCD-X710CR/X710  
22000000h  
F0F00188h  
We find video modes 2 and 6 of Format2 are supported.  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
18  
 
 
Control  
Video modes supported  
XCD-SX910CR/SX910UV/SX910  
FrameRate  
Format  
0
Mode  
ImageSize  
640 × 480  
640 × 480  
800 × 600  
1024 × 768  
800 × 600  
1024 × 768  
1280 × 960  
1280 × 960  
ColorCoding  
Mono8  
30  
15  
7.5  
a
a
a
a
a
a
a
a
3.75  
a
a
1.875  
5
6
2
5
6
7
2
6
a
Mono16  
Mono8  
1
a
a
Mono8  
a
a
a
a
a
a
Mono16  
Mono16  
Mono8  
a
a
a
2
a
Mono16  
XCD-X710CR/X710  
FrameRate  
Format  
0
Mode  
ImageSize  
640 × 480  
640 × 480  
800 × 600  
1024 × 768  
800 × 600  
1024 × 768  
ColorCoding  
Mono8  
30  
15  
a
a
a
a
a
a
7.5  
a
a
a
a
a
a
3.75  
a
a
1.875  
5
6
2
5
6
7
a
Mono16  
Mono8  
1
a
a
Mono8  
a
a
a
a
Mono16  
Mono16  
a
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
19  
 
Control  
Video Mode Settings  
OneShot and MultiShot  
Select the video mode you want to use from the tables,  
and make the required settings. As examples, the  
register settings for Format2, Mode2, and a frame rate  
of 15 fps for the XCD-SX910CR/SX910UV/SX910,  
and Format1, Mode5, and a frame rate of 30 fps, for  
the XCD-X710CR/X710, are shown.  
This camera supports both OneShot and MultiShot  
commands. With a OneShot command, after outputting  
a just one single-frame image, the camera enters an  
“idling” state. With a MultiShot command, the camera  
enters the “idling” state after outputting exactly the  
specified number of images.  
In addition, an isochronous transfer speed of  
400 Mbps, and isochronous channel 0 are used in these  
examples. Normally, set the isochronous transfer speed  
to 400 Mbps.  
OneShot  
Address  
Data  
When multiple cameras are used simultaneously, set  
different isochronous channels for each one.  
F0F0061Ch  
80000000h  
MultiShot  
Data  
Address  
Data  
Address  
XCD-SX910CR/SX910UV/SX910 XCD-X710CR/X710  
F0F0061Ch  
4000nnnnh  
F0F00600h  
(FrameRate)  
60000000h  
40000000h  
40000000h  
02000000h  
80000000h  
A0000000h  
20000000h  
02000000h  
F0F00604h  
Nnnn indicates the number of frames to be output. You  
can specify any number between 0001h ~ FFFFh  
(1~65,535). If 0000h is specified, you can think of it as  
1 being set instead.  
(VideoMode)  
F0F00608h  
(VideoFormat)  
F0F0060ch  
(IsoChannel/  
IsoSpeed)  
Execution of ContinuousShot, OneShot, and MultiShot  
are prioritized as follows. When a command with  
higher priority is being executed, the one with the  
lower priority is ignored.  
ContinuousShot > OneShot > MultiShot  
Starting/Stopping  
Video Transfer  
(ContinuousShot)  
In the device driver, after the preparations for  
receiving isochronous data are made, video transfer  
starts when the following commands are issued.  
Address  
Data  
F0F00614h  
80000000h  
When the following command is issued, video transfer  
stops.  
Address  
Data  
F0F00614h  
00000000h  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
20  
 
 
Control  
Memory Channel  
Operation  
Save  
Selecting the Memory Channel used to  
save the data  
Address  
Data  
Operation  
Selects Ch 1.  
Selects Ch 2.  
F0F00620h  
10000000h  
20000000h  
Saving data  
Address  
Data  
Operation  
F0F00618h  
80000000h  
Saves the current setting.  
Load  
Address  
Data  
Operation  
F0F00624h  
00000000h  
10000000h  
20000000h  
Loads the default settings.  
Loads the setting information in Ch 1.  
Loads the setting information in Ch 2.  
The settings of the camera features and the video mode  
can be stored.  
The camera memorizes the channel most recently used  
to read out the setting information using non-volatile  
memory. Then, the information in that channel will be  
loaded when the power is turned on the next time.  
The video mode settings are loaded only when the  
power is turned on. If you read out Memory Channels  
during operation, only the settings of the camera  
features are loaded.  
The value of Pan/Tilt depends on the video mode  
settings. If you change the video mode after carrying  
out the Save command, the value of Pan/Tilt may not  
be loaded correctly.  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
21  
 
 
Control  
Feature Controls  
This camera supports the following features.  
AutoExposure  
Shutter  
Controls the target video level value when Shutter/gain is set to Auto.  
Controls the exposure time. Can be controlled by both relative control values from 1/100,000 of a second to 16 seconds,  
allocated from 3 to 1150, and absolute value control, from values 1/100,000 of a second to 17.5 seconds, set continuously.  
Gain  
Can be changed to 0 to 18 dB (XCD-SX910CR/X710CR)/0 to 24 dB (XCD-SX910UV/SX910/X710), subdivided in  
640 steps.  
Trigger  
Pan/Tilt  
Brightness  
Sets external trigger mode. Trigger Mode 0 and 1 are available. Software Trigger Mode in which triggers can be output by  
software.  
Sets CCD output range (both horizontal (Pan) and vertical (Tilt)). The video mode predetermines the variable range. Not  
available in Partial Scan Mode (Format7/Mode0).  
Adjusts the black level precisely.  
The XCD-SX910CR/X710CR supports the following  
additional features.  
White Balance  
Hue  
Adjusts the White Balance by adjusting the R and B gain with respect to G.  
Adjusts G gain. Use this feature when you cannot obtain the correct White Balance using the R and B gain.  
Optical Filter  
Selects the pixels to output from among the R, G, and B data on the Bayer pattern.  
Four kinds of Bayer pattern are available.  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
22  
 
 
Control  
Before sending a command, check the predetermined  
variable range and check whether the feature supports  
AUTO mode.  
considerably depending on the video mode. After  
switching video mode, check the variable range of the  
new video mode.  
Note that variable ranges for Pan/Tilt differ  
Address  
Data  
Bit*1)  
F0F00500h  
(Brightness)  
8905A073h  
0
This feature exists.  
4
The value can be read out.  
Manual setting can be selected.  
Min. 0  
7
8-19  
20-31  
Max. 63  
F0F00504h  
8905A073h  
CB003424h  
8B1803FFh  
CB003424h  
0
This feature exists.  
(AutoExposure)  
4
The value can be read out.  
Manual setting can be selected.  
Min. 90  
7
8-19  
20-31  
Max. 115  
F0F0050Ch  
0
This feature exists.  
(White Balance)  
(XCD-SX910CR/X710CR only)  
4
The value can be read out.  
Manual setting can be selected.  
Min. 0  
7
8-19  
20-31  
Max. 127  
F0F00510h  
0
This feature exists.  
(Hue)  
4
The value can be read out.  
Manual setting can be selected.  
Min. 0  
(XCD-SX910CR/X710CR only)  
7
8-19  
20-31  
Max. 63  
F0F0051Ch  
(Shutter)  
0
This feature exists.  
1
Absolute value control possible  
The value can be read out.  
Auto setting can be selected.  
Manual setting can be selected.  
Min. 3  
4
6
7
8-19  
20-31  
Max. 1150  
F0F00520h  
(Gain)  
8B1803FFh  
8C81C000h  
0
This feature exists.  
4
The value can be read out.  
Auto setting can be selected.  
Manual setting can be selected.  
Min. 384  
6
7
8-19  
20-31  
Max. 1023  
F0F00530h  
0
This feature exists.  
4
The value can be read out.  
Feature can be switched between ON and OFF.  
Trigger Source0 exists.*2)  
Software Trigger Mode exists.*2)  
Trigger Mode0 exists.  
Trigger Mode1 exists.  
This feature exists.  
5
8
15  
16  
17  
0
F0F00584h  
(Pan)  
89  
******  
4
The value can be read out.  
Manual setting can be selected.  
Min. (Depends on the video mode.)  
Max. (Depends on the video mode.)  
This feature exists.  
F0F00584h  
(Tilt)  
7
8-19  
20-31  
0
F0F0058Ch  
8C81C000h  
(Optical Filter)  
4
The value can be read out.  
Manual setting can be selected.  
Min. 0  
(XCD-SX910CR/X710CR only)  
7
8-19  
20-31  
Max. 3  
*1) According to the IEEE 1394 specifications, the most significant bit is shown as 0.  
*2) These features comply with IIDC v.1.31.  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
23  
 
Control  
Trigger control  
Actual control can be carried out by setting registers  
from F0F00800 onward.  
Address  
Data  
F0F00830  
82000000  
82010000  
82E00000  
82E10000  
80000000  
Sets to Hardware Trigger Mode0.  
ddd indicates the control value expressed as a 12 bit  
hexadecimal number.  
xxx indicates that any setting made will be ignored.  
Sets to Hardware Trigger Mode1.  
Sets to Software Trigger Mode0. *  
Sets to Software Trigger Mode1. *  
Brightness control  
F0F0062C*  
Outputs a software trigger.  
In Trigger Mode0, automatically reset  
to 0 when exposure ends.  
Address  
Data  
F0F00800  
82000ddd  
Adjusts the black level.  
00000000  
In Trigger Mode1, ends exposure if  
“0” is set.  
AE reference control  
* These features comply with IIDC v.1.31.  
Address  
Data  
F0F00804  
82000ddd  
Sets the AE reference value.  
White Balance control (XCD-SX910CR/  
X710CR only)  
Shutter (exposure time) control  
Address  
Data  
F0F0080C  
82bbbrrr  
Sets R and B Gain.  
Address  
Data  
“bbb” sets B Gain, “rrr” sets R Gain.  
F0F0081C  
82000ddd  
Controls shutter using the manually  
set relative value.  
Hue (G Gain) control (XCD-SX910CR/  
X710CR only)  
83000xxx  
C2000xxx  
Sets to AUTO.  
Controls shutter using the absolute  
control value.  
Address  
Data  
Indicates an  
arbitrary value  
using a 32-bit  
floating point  
value.  
F0F00970  
After F0F0081C has been set to  
Absolute value control, set exposure  
time using this register.  
F0F00810  
82000ddd  
Sets G Gain.  
(See page 25.)  
Optical Filter control (Bayer pattern  
selection) (XCD-SX910CR/X710CR only)  
Address  
Data  
F0F0088C  
82000ddd  
Selects the Bayer pattern.  
Gain control  
Address  
Data  
The following Bayer patterns are available.  
F0F00820  
82000ddd  
83000xxx  
Sets Gain manually.  
Sets Gain to AUTO.  
Pattern 0  
G
R
B
Pan/Tilt control  
G
Address  
Data  
Pattern 1  
Pattern 2  
Pattern 3  
F0F00884  
F0F00888  
82000ddd  
82000xxx  
Sets Pan manually.  
Sets Tilt manually.  
B
G
R
G
R
G
G
B
G
B
R
G
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
24  
 
Control  
The formula for absolute value shutter  
control register address  
Absolute value shutter control CSR offset  
address  
Address  
Data  
F0F0071C  
003C025C  
Absolute value shutter control CSR  
offset  
The register address for absolute value shutter control  
is given by the following formula.  
F0000000h + 003C025Ch * 4 = F0F00970h  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
25  
 
Control  
Partial Scan Operation  
Partial scan can be set using either the SettingBit or  
IIDC v.1.20 interchange.  
An example of the setting procedure (In the case of an  
XCD-SX910CR/SX910UV/SX910)  
1280  
240  
320  
When shooting the center of the whole  
screen with the screen size of 640 ×  
480, and color coding set to 8 bit Black  
& White Mode, the packet size is set to  
maximum in order to capture the  
image at the highest speed.  
960  
480  
640  
Start  
Set the format.  
Write E0000000h in F0F00608h.  
(Set the format to 7.)  
Check available modes.  
Read F0F0019Ch. F8000000h is  
returned, thus Mode0 to Mode4 are  
available.  
Set the mode.  
Write 00000000h in F0F00604h.  
(Set the Mode to 0.)  
Obtain a CSR offset address.  
Read F0F002E0h. 003C4000h is  
returned, thus the offset address for  
Mode0 is F0F10000h. (F0000000h  
+4*003C4000h)  
Go to Step 2.  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
26  
 
 
Control  
Step 2  
MaxSize is read out.  
Read F0F10000. 050003C0h is returned,  
thus the maximum image size is 1280 ×  
960.  
Read F0F10004h. 0050003Ch is  
returned, thus the unit size is 80 × 60.  
Therefore, the screen can be divided into  
256 sections (16 × 16, vertically and  
horizontally.)  
UnitSize is read out.  
Read F0F10014h. 84000000h is  
returned, thus Mono8 and Mono16 are  
available.  
ColorCoding is read out.  
Set the image position.  
Write 018000F0h in F0F10008h.  
(Horizontal position = 320, Vertical  
position = 240)  
Write 028001E0h in F0F1000Ch.  
(Width = 640, Height = 480)  
Set the image size.  
Set the color cording ID.  
Set the SettingBit.  
Write 00000000h in F0F10010h.  
(Mono8 = 0)  
Write C0000000h in F0F1007Ch.  
Read F0F1007Ch. Wait until Bit 1 falls.  
Wait until the SettingBit falls.  
Error  
Read F0F1007Ch. Check that Bit 8 is not  
set. If an error occurs, the setting was  
wrong. Try other settings.  
Check ErrorFlag 1.  
No error  
When using IIDC v.1.20, skip the  
procedures described in the broken line.  
Go to Step 3.  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
27  
 
Control  
Step 3  
PixelNumber is read out.  
Read F0F10034h. Number of pixels is  
obtained. (Use this information if required  
by the software application.)  
TotalByte is read out.  
Read F0F10038-3Ch. Total byte (of  
effective image) is obtained.  
PacketParaINQ is read out.  
Read F0F10040h. Packet size that can be  
set is obtained. (1,200 (minimum) and  
2,400 (maximum) for this camera.)  
Sets the packet size.  
Check the packet size.  
Write 09600960h in F0F10044h.  
(PacketSize = 2400)  
Error  
Read F0F1007Ch. Check that Bit 9 is not  
set. If an error occurs, the PacketSize was  
wrong. Try other settings.  
No error  
Read F0F10048h. The number of packets  
per 1 frame is obtained. (The total number  
of bytes of the data output by the camera  
output = Packet size × number of packets)  
Obtain the number of packets.  
Setting completed.  
Now image transmission is ready. Send a video start  
command to output images.  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
28  
 
Appendix  
(However, partial activation can be used if the  
following conditions are exceeded. Refer to the table  
on pages 35 and 36.)  
Notes on the Camera  
Operations  
1. If a Frame rate decrease.  
T
T
Frame rate may decrease depending on your shutter  
settings.  
Mode 0: timing after the exposure set by the parameter  
is finished  
Mode 1: at the trailing edge of the trigger pulse  
a. When a series of images is output, the instant  
when the exposure time is shorter than one  
frame, and the exposure time setting is shortened  
using the shutter.  
XCD-SX910CR/SX910UV/SX910 : T1/15 sec  
XCD-X710CR/X710  
: T1/30 sec  
3. When AE is not available.  
Exposure  
A
A
B
B
B
C
The camera loads the AE function that controls Gain  
and Shutter automatically. However, the function  
works properly in the Normal mode only.  
time  
TRIG  
DATA  
XCD-SX910CR/SX910UV/SX910  
Format2Mode2 15 fps  
TriggerOFF  
A > B  
B < C  
b. When the shutter is set to Auto, the instant when  
the exposure time decreases to match the light  
coming in. (Dark t Light)  
In either cases, the camera tends to skip 1 frame  
image, resulting in a decrease in the frame rate.  
Keep this in mind when using an application that  
switches exposure time frequently.  
XCD-X710CR/X710  
Format1Mode5 30 fps  
TriggerOFF  
When other modes are set, activating the AE function  
is possible, however, normal operation of the function  
is not guaranteed.  
c. With a long exposure  
In long exposure mode, the exposure time is set  
longer than the image transmission cycle. In this  
case, frame rate decreases according to the  
exposure time.  
In Trigger mode—AE works properly when the video  
format is set to the normal setting and the trigger cycle  
is set to the same as that of the video format.  
4. On the sensitivity in Binning mode  
2. When using Trigger mode  
In the Binning mode, the vertical signal is factored in,  
so the sensitivity is doubled. The frame rate is also  
doubled (the frame cycle is halved), but if the shutter is  
set to off, the exposure time is halved, and so this  
effect is canceled out. On the other hand, when the  
shutter is on, the effect of this inclusion appears, and  
the sensitivity increases. So when setting the exposure  
time in the Binning mode, take this into consideration.  
When this camera is set to accept a trigger at the  
fastest possible timing, it can accept overlap of the  
next trigger signal in the midst of video transmission.  
For this reason, a trigger inhibition period is not  
available. Thus, if a trigger signal is input before the  
CCD can change to the state where it can accept  
exposures, multiple exposures can occur, and it cannot  
capture the correct image. Make sure that the  
following conditions are met when the trigger is  
activated.  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
29  
 
 
Appendix  
5. Auto shutter control and absolute value shutter  
control  
The auto shutter control function cannot be used in the  
Absolute value control mode. When Shutter is set to  
AUTO, the Absolute value control mode is  
automatically canceled.  
8. Note on the isochronous control register  
The BlockWrite operations are available in the range  
F0F00600h to F0F00614h. However, setting the video  
mode in this range is not recommended because it may  
influence the variable range available for the features.  
Following the process listed below is recommended  
for setting the isochronous control register.  
6. Issues to be considered with partial activation,  
and binning  
With partial activation and binning, high-speed  
operation of the CCD occurs.  
If strong light comes into the image at the same time,  
there may be some influence at the edges of the image.  
In such a case then, adjust the lens so that only the  
appropriate amount of light is allowed.  
Set the isochronous channel/isochronous speed  
(F0F0060Ch)  
Set the video format  
Set the video mode  
Set the frame rate  
(F0F00608h)  
(F0F00604h)  
(F0F00600h)  
Confirm the variable range for the various features  
(F0F00500-F0F005FCh)  
Set the features (as needed) (F0F00800-F0F008FCh)  
Prepare for video data capture  
7. About the address range available for  
BlockWrite operations  
Video start  
(F0F00614h)  
The camera performs BlockWrite operations against  
consecutive registers. However, the range of the  
addresses stored in these registers are limited.  
9. About the Binning mode on the XCD-SX910CR/  
X710CR  
On a camera using a color CCD, the color information  
is lost during the process of mixing pixels. Because of  
this, a color CCD camera cannot output a correct  
image in the Binning mode. Use the Binning mode  
only when you intend to perform something needing a  
high frame rate, such as focus adjustment.  
Available address ranges for  
Functions  
BlockWrite operations  
F0F00600h - F0F00614h  
Frame rate/Video mode/Video  
format/Isochronous channel/  
Isochronous speed/  
Isochronous_Enable  
F0F00800h - F0F008fCh  
Feature control  
If BlockWrite operations are performed outside the  
ranges listed above, an address error will occur.  
Meanwhile, the camera can perform BlockRead  
operations for any sequence of consecutive registers  
even though the registers are not available for  
BlockWrite operations.  
In Format 7 CSR, for example, BlockWrite operations  
are prohibited because Format 7 CSR requires a  
process for setting the register. However, BlockRead is  
possible in Format 7 CSR.  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
30  
 
Appendix  
On light sources  
Characteristics of the  
XCD-SX910UV  
This camera is sensitive to ultraviolet light in the 400  
nm or less. At the same time, it is sensitive to visible  
and infrared light above 400 nm in wavelength. So,  
when shooting a subject illuminated only by ultraviolet  
light, the visible light or infrared light shining on the  
subject or entering the camera, can have an influence  
on the image output. In order to obtain an accurate  
image, some sort of screening equipment will be  
needed to deal with both the visible and the infrared  
light.  
Relative Sensitivity  
The relative sensitivity of the camera is determined by  
the permeability of the optical filter, and the  
spectroscopic sensitivity characteristics of the CCD  
mounted in the camera. Thus the relative sensitivity of  
a camera can be found by looking at the product of the  
permeability properties of the optical filter and the  
spectroscopic sensitivity characteristics of the CCD.  
If you use ultraviolet light as a light source, use light  
waves in the appropriate range for the camera  
sensitivity. Depending on the amount of light,  
wavelengths shorter than 350 nm can have an effect on  
the human body. Be especially careful to read the  
Operating Instructions to obtain a full understanding of  
how to properly use your light source.  
This time, the optical filter used in the XCD-  
SX910UV will allow 200 to 1000 nm wavelength  
waves to pass, but for the most part, however, it  
doesn’t depend on the wavelength, but instead utilizes  
a certain permeability ratio. So the relative sensitivity  
of the camera is more or less the same as the  
spectroscopic sensitivity of the CCD.  
In addition, there are safety considerations when using  
ultraviolet light, involving light reflected off the  
camera and light shining around at random. Be sure to  
take all necessary safety precautions when you use  
ultraviolet light as a light source.  
When shooting a scene illuminated only by ultraviolet  
light, visible light or infrared light shining on the  
subject, or entering the camera can have an influence  
on the image output. In order to obtain an accurate  
image, some sort of screening equipment will be  
needed to deal with the visible or the infrared light.  
When you switch back and forth using ultraviolet light  
and visible light with the same camera, due to  
aberrations in the lens, there may be some differences  
in the focus when you use ultraviolet light and when  
you use visible light.  
On the XCD-SX910UV, the flange-back is 17.526 mm  
with ultraviolet light having a wavelength of 300 nm,  
as the default.  
When screening or covering is not possible, to shoot an  
image using only ultraviolet light in an environment  
where ultraviolet and visible lights are mixed, it is  
necessary to change the relative sensitivity response of  
the camera. In such a case, in order to suppress the  
sensitivity to visible light, a special filter can be used.  
This kind of special filter is called an “ultraviolet light  
permeable filter.” If you set this filter between the  
camera and the subject, the sensitivity to ultraviolet  
light relative to visible light increases, and you can  
create a camera system more responsive to ultraviolet  
light.  
There are many types of special filters available on the  
market. You can use filters to suit the environment and  
the shooting conditions, and using just this camera,  
configure a camera system that has exactly the relative  
sensitivity characteristics you need.  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
31  
 
 
Appendix  
camera change (for example, how wide you open the  
lens, how long the exposure time is, how high the gain,  
etc.), it is not absolutely necessary to change the CCD  
as long as the desired standard of image quality  
continues to be produced.  
Deterioration in CCD sensitivity  
The sensitivity of the CCD in this camera can  
deteriorate over time.  
Because ultraviolet light contains higher energy  
compared to visible light, the elements making up the  
CCD can suffer damage; so depending on the amount  
of ultraviolet light energy accumulated, a lowering of  
the sensitivity may occur. The amount of radiated  
energy is equal to the amount of light radiated and the  
length of time it is radiated, thus the total accumulated  
radiated energy is the sum total of all the radiated  
energy accumulated over time.  
As an easy guideline to calculate the duration of time  
which causes a 15% reduction in the sensitivity with a  
196 nm ultraviolet light source (Characteristic  
Example 2), we will introduce a simpler version of the  
formula used above to calculate the total amount of  
accumulated radiated energy.  
Time which causes a 15% reduction of the  
sensitivity (in years) =  
The total accumulated radiated energy [J/cm2] =  
Σ (Amount of radiated light [W] × length of  
time it is radiated [in seconds])  
0.48/ amount of radiated light [µW]  
This formula is based on the amount of radiated light  
under one light source, with the camera being used  
continuously for 24 hours a day. For example, with  
0.5 µW of radiated light, which is the standard output  
from one light source, the number of years it would  
take the CCD to suffer the 15% deterioration in  
sensitivity necessary to require replacement is 0.96  
years. So if the camera is used 8 hours a day, then the  
time to replacement of the CCD is three times that, or  
2.88 years.  
As an example of this particular characteristic, see the  
following.  
Characteristic Example 1:  
With ultraviolet light having a wavelength of  
266 nm, and total accumulated radiated energy of  
100 J/cm2, the sensitivity of the CCD will be  
reduced by about 1%.  
As an easy guideline to calculate the duration of time  
which causes a 1% reduction in the sensitivity with a  
226 nm ultraviolet light source (Characteristic  
Example 1), we will introduce a simpler version of the  
formula used above to calculate the total amount of  
accumulated radiated energy.  
This is how the sensitivity of the CCD deteriorates  
from the effects of the radiation of ultraviolet light.  
When the wavelength of the radiated ultraviolet light  
changes, it can be assumed that the total amount of  
accumulated radiated energy which causes the  
deterioration in the sensitivity will vary greatly.  
Please be aware that it is possible for the sensitivity to  
deteriorate in a short time, too, especially when a large  
amount of ultraviolet light is used. (When an  
ultraviolet laser is shined directly into the camera and a  
portion of the usable picture element area of the CCD  
receives a significant amount of ultraviolet light, that  
portion of the CCD alone can suffer from deterioration  
in sensitivity.)  
Even when there isn’t a significant amount of light  
entering the camera, but the exposure to the light  
continues for a long time, the sensitivity can be  
affected. So close the shutter when not actually  
shooting, and protect the CCD from ultraviolet light as  
much as possible.  
Time which causes a 1% reduction in the  
sensitivity (in years) =  
3.17/ amount of radiated light [µW]  
This formula is based on the amount of radiated light  
under one light source, with the camera being used  
continuously for 24 hours a day. For example, with  
1.5 µW of radiated light, which is the high-power  
output from one light source, the number of years it  
would take a 1% deterioration in sensitivity to occur  
is 2.11 years. So if the camera is used 8 hours a day,  
then the period is three times that, or 6.33 years.  
Characteristic Example 2:  
With ultraviolet light having a wavelength of  
196 nm, and total accumulated radiated energy of  
15 J/cm2, the sensitivity of the CCD will be  
reduced by about 15%.  
Because the CCD is replaceable, when you want to  
replace it due to deterioration in sensitivity, contact the  
store where you purchased the camera. However, you  
cannot replace just the CCD, you will have to replace  
the front panel block as a unit, at additional expense.  
As an example of the decision standard, you can think  
of a 15% reduction in sensitivity as a guideline to use  
to decide when to replace the CCD. However, even  
though the conditions under which you use your  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
32  
 
Appendix  
Minimum illumination  
Specifications  
Image sensor  
XCD-SX910CR/X710CR  
20 lx (F0.95, Gain: +18 dB,  
1/30 s, G ch)  
XCD-SX910UV/SX910/X710  
XCD-SX910CR/SX910UV/SX910  
4 lx (F0.95, Gain: +18 dB, 1/60 s)  
1
/
2-type progressive scan IT  
Brightness  
Gamma  
CCD Iris  
Shutter  
Adjustable  
γ = 1 (Fixed)  
ON/OFF  
1/100,000 to 17.5 s  
(Absolute value control  
possible)  
transfer CCD  
XCD-X710CR/X710  
1
/
3-type progressive scan IT  
transfer CCD  
Number of effective pixels  
XCD-SX910CR/SX910UV/SX910  
Approx. 1,450,000  
Gain  
XCD-SX910CR/X710CR  
Auto/Manual (0 to 18 dB)  
XCD-SX910UV/SX910/X710  
1392 (H) × 1040 (V)  
XCD-X710CR/X710  
Approx. 800,000  
Auto/Manual (0 to 24 dB)  
External trigger shutter  
1034 (H) × 779 (V)  
4.65 µm (H) × 4.65 µm (V)  
IEEE1394-1995  
Unit cell size  
Interface format  
Transfer speed  
Protocol  
Available (Trigger Mode0/1)  
Partial scan function (Smallest unit)  
XCD-SX910CR/SX910UV/SX910  
80 (H) × 60 (V)  
400, 200, 100 Mbps  
IIDC 1394-based Digital  
Camera Specification Version  
1.30 Compliant  
XCD-X710CR/X710  
64 (H) × 48 (V)  
Power supply/Power consumption  
Image format (fixed size)  
XCD-SX910CR/SX910UV/SX910  
+8 to +30 V (from IEEE1394  
cable)  
1280 × 960 Mono8/16  
1024 × 768 Mono8/16  
800 × 600 Mono8/16  
640 × 480 Mono8/16  
Power consumption  
XCD-SX910CR/SX910/X710CR/X710  
3.5 W (12 V)  
XCD-X710CR/X710  
XCD-SX910UV  
1024 × 768 Mono8/16  
800 × 600 Mono8/16  
4.0 W (12 V)  
Operating temperature  
–5 to +45˚C  
Storage temperature –20 to +60˚C  
Operating relative humidity  
640 × 480 Mono8/16  
Frame rate (depends on the image format)  
XCD-SX910CR/SX910UV/SX910  
15 to 1.875 fps  
20 to 80% (No condensation)  
Storage relative humidity  
20 to 95% (No condensation)  
Vibration resistance 10 G (20 to 200 Hz, 20 minutes  
for each direction-X, Y, Z)  
XCD-X710CR/X710  
30 to 1.875 fps  
Image format (Format7) (*for Partial scan)  
XCD-SX910CR/SX910UV/SX910  
*1280 × 960 Mono8/16  
MTBF  
59549 Hrs (Approx. 6.8 years)  
70 G  
44 (W) × 33 (H) × 116 (D) mm  
250 g  
640 × 480 Mono8/16  
Shock resistance  
Dimensions  
Mass  
1280 × 480 Mono8/16  
1376 × 1024 Mono8/16  
1024 × 1024 Mono8/16  
Accessories  
IEEE1394 cable (1)  
Lens mount cap (1)  
Operating Instructions (1)  
XCD-X710CR/X710  
*1024 × 768 Mono8/16  
512 × 384 Mono8/16  
1024 × 384 Mono8/16  
Partial scan function 16 × 16 (256 sections)  
Lens mount  
Flange back  
C-mount  
17.526 mm  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
33  
 
 
Appendix  
Video modes supported  
XCD-SX910CR/SX910UV/SX910  
Fixed format  
FrameRate  
Format  
0
Mode  
ImageSize  
640 × 480  
640 × 480  
800 × 600  
1024 × 768  
800 × 600  
1024 × 768  
1280 × 960  
1280 × 960  
ColorCoding  
Mono8  
30  
15  
7.5  
a
a
a
a
a
a
a
a
3.75  
a
a
1.875  
5
6
2
5
6
7
2
6
a
Mono16  
Mono8  
1
a
a
Mono8  
a
a
a
a
a
a
Mono16  
Mono16  
Mono8  
a
a
a
2
a
Mono16  
Free format  
Format  
7
Mode  
ImageSize  
1280 × 960  
1280 × 960  
640 × 480  
ColorCoding  
Mono8  
PartialScan  
FrameRate  
Not specified  
Not specified  
30/15 fps  
0
0
1
1
2
2
3
3
4
4
a (16 × 16)  
Mono16  
Mono8  
a (16 × 16)  
×
×
×
×
×
×
×
×
640 × 480  
Mono16  
Mono8  
15/7.5 fps  
1280 × 480  
1280 × 480  
1376 × 1024  
1376 × 1024  
1024 × 1024  
1024 × 1024  
30/15 fps  
Mono16  
Mono8  
15/7.5 fps  
15/7.5 fps  
Mono16  
Mono8  
7.5/3.75 fps  
15/7.5 fps  
Mono16  
7.5/3.75 fps  
XCD-X710CR/X710  
Fixed format  
FrameRate  
Format  
0
Mode  
ImageSize  
640 × 480  
640 × 480  
800 × 600  
1024 × 768  
800 × 600  
1024 × 768  
ColorCoding  
Mono8  
30  
15  
a
a
a
a
a
a
7.5  
a
a
a
a
a
a
3.75  
a
a
1.875  
5
6
2
5
6
7
a
Mono16  
Mono8  
1
a
a
Mono8  
a
a
a
a
Mono16  
Mono16  
a
Free format  
Format  
7
Mode  
ImageSize  
1024 × 768  
1024 × 768  
512 × 384  
512 × 384  
1024 × 384  
1024 × 384  
ColorCoding  
Mono8  
PartialScan  
FrameRate  
Not specified  
Not specified  
50/25 fps  
0
0
1
1
2
2
a (16 × 16)  
Mono16  
Mono8  
a (16 × 16)  
×
×
×
×
Mono16  
Mono8  
25/12.5 fps  
50/25 fps  
Mono16  
25/12.5 fps  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
34  
 
Appendix  
Notes on the frame rates in Partial Scan  
Mode  
The following table shows examples of frame rates in  
Partial Scan Mode. Note that the values in the table are  
given as examples, as the frame rate varies depending  
on exposure times or areas you have specified.  
XCD-X710CR/X710  
With Trigger OFF, and PacketSize = 3072  
Shutter=129(16.641 ms)  
Shutter=3(9 µs)  
Frame time(ms) Frame rate(fps)  
ImageWidth  
ImageHeight  
48  
Frame time(ms)  
24.7  
Frame rate(fps)  
40.5  
64  
64  
64  
64  
64  
64  
64  
64  
64  
64  
64  
64  
64  
64  
64  
64  
8.1  
123.8  
102.6  
87.7  
76.5  
67.8  
61.0  
55.3  
50.7  
46.7  
43.3  
40.4  
37.9  
35.6  
33.6  
31.9  
30.2  
96  
26.4  
38.0  
9.7  
144  
28.0  
35.7  
11.4  
13.1  
14.7  
16.4  
18.1  
19.7  
21.4  
23.1  
24.7  
26.4  
28.0  
29.7  
31.4  
33.0  
192  
29.7  
33.7  
240  
31.3  
31.9  
288  
33.0  
30.3  
336  
34.6  
28.8  
384  
36.4  
27.5  
432  
38.0  
26.3  
480  
39.7  
25.2  
528  
41.3  
24.2  
576  
43.0  
23.2  
624  
44.6  
22.4  
672  
46.3  
21.6  
720  
48.0  
20.8  
768  
49.7  
20.1  
With Trigger ON, PacketSize = 3072, and Shutter = 129 (16.6 ms)  
Maximum frequency of an external  
trigger shutter that can be input  
Frequency of trigger  
(Hz)  
ImageWidth  
ImageHeight  
1024  
1024  
1024  
1024  
1024  
1024  
1024  
1024  
1024  
1024  
1024  
1024  
1024  
1024  
1024  
1024  
48  
59.9  
59.9  
59.9  
59.9  
59.9  
59.9  
56.1  
51.3  
47.2  
43.7  
40.8  
38.2  
35.9  
33.8  
32  
96  
144  
192  
240  
288  
336  
384  
432  
480  
528  
576  
624  
672  
720  
768  
Frame rates are affected by  
exposure time.  
30.2  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
35  
 
Appendix  
XCD-SX910CR/SX910UV/SX910  
With Trigger OFF, and PacketSize = 2400  
Shutter=129(16.641 ms)  
Shutter=3(9 µs)  
Frame time(ms) Frame rate(fps)  
ImageWidth  
ImageHeight  
60  
Frame time(ms)  
Frame rate(fps)  
25.1  
80  
80  
80  
80  
80  
80  
80  
80  
80  
80  
80  
80  
80  
80  
80  
80  
39.9  
42.7  
45.5  
48.3  
50.7  
54.0  
56.8  
59.6  
62.4  
65.3  
68.1  
70.9  
73.7  
76.5  
79.3  
82.2  
23.2  
26.1  
28.9  
31.8  
34.6  
37.4  
40.2  
43.0  
45.8  
48.7  
51.5  
54.3  
57.1  
59.9  
62.7  
65.6  
42.9  
38.3  
34.6  
31.5  
28.9  
26.7  
24.9  
23.2  
21.8  
20.6  
19.4  
18.4  
17.5  
16.7  
15.9  
15.3  
120  
23.4  
180  
22.0  
240  
20.7  
300  
19.7  
360  
18.5  
420  
17.6  
480  
16.7  
540  
16.0  
600  
15.3  
660  
14.7  
720  
14.1  
780  
13.6  
840  
13.1  
900  
12.6  
960  
12.2  
With Trigger ON, PacketSize = 2400, and Shutter = 129 (16.6 ms)  
Maximum frequency of an external  
trigger shutter that can be input  
Frequency of trigger  
(Hz)  
ImageWidth  
ImageHeight  
1280  
1280  
1280  
1280  
1280  
1280  
1280  
1280  
1280  
1280  
1280  
1280  
1280  
1280  
1280  
1280  
60  
59.8  
52.0  
44.8  
39.7  
35.7  
32.5  
30.1  
27.6  
25.6  
23.6  
22.2  
20.4  
18.8  
17.5  
16.4  
15.3  
120  
180  
240  
300  
360  
420  
480  
540  
600  
660  
720  
780  
840  
900  
960  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
36  
 
Appendix  
CCD Pixel Location (Top View)  
XCD-SX910CR/SX910UV/SX910  
Total number of pixels:  
Number of effective pixels: 1,392 (H) × 1,040 (V)  
Number of output pixels: 1,376 (H) × 1,024 (V) (Max.)  
1,434 (H) × 1,050 (V)  
Pin 1  
Pin 11  
8
1376  
1392  
1434  
8
40  
2
XCD-X710CR/X710  
Total number of pixels:  
Number of effective pixels: 1,034 (H) × 779 (V)  
Number of output pixels:  
1,077 (H) × 788 (V)  
1,024 (H) × 768 (V)  
Pin 1  
Pin 11  
8
1024  
1034  
1077  
2
40  
3
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
37  
 
 
Appendix  
Spectral Sensitivity (Relative Response)  
Parameters  
(Without lens and light source parameters.)  
XCD-SX910/X710  
1.0  
0.8  
0.6  
0.4  
0.2  
0
400  
500  
600  
700  
800  
900  
1000  
Wave Length [nm]  
XCD-SX910CR/X710CR  
1
G
R
0.8  
0.6  
0.4  
0.2  
B
0
400  
500  
600  
700  
Wave Length [nm]  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
38  
 
 
Appendix  
XCD-SX910UV  
1.0  
0.9  
0.8  
0.7  
0.6  
0.5  
0.4  
0.3  
0.2  
0.1  
0.0  
200  
300  
400  
500  
600  
700  
800  
900  
1000  
Wave Length [nm]  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
39  
 
Appendix  
Dimensions  
13  
2-M3, depth 4  
44  
116  
8
32.75  
25  
4-M2, depth 3  
4-M3, depth 4  
13  
108.5  
Unit: mm  
XCD-SX910CR/X710CR  
XCD-SX910UV  
XCD-SX910/X710  
40  
 
 

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