|
|
PDF WM8143-10 Data sheet ( Hoja de datos )
| Número de pieza | WM8143-10 | |
| Descripción | 10-bit/6MSPS CCD Signal Processor | |
| Fabricantes | Wolfson Microelectronics plc | |
| Logotipo |  |
|
Hay una vista previa y un enlace de descarga de WM8143-10 (archivo pdf) en la parte inferior de esta página. Total 24 Páginas | ||
|
No Preview Available !
WM8143-10
10-bit/6MSPS CCD Signal Processor
Production Data June 1998 Rev 3f
Description
The WM8143-10 integrates the analogue signal
conditioning required by CCD sensors with a 10-bit ADC.
The WM8143-10 requires minimal external circuitry and
provides a cost-effective sensor to digital domain system
solution.
Each of the three analogue conditioning channels
includes reset level clamp, CDS, fine offset level shifting
and programmable gain amplification. The three channels
are multiplexed into the ADC. The output from the ADC is
fed to the output bus pins OP[9:0] via a 10/8 bit
multiplexer, enabled by the OEB signal.
The flexible output architecture allows ten-bit data to be
accessed either on a ten-bit bus or via a time-multiplexed
eight-bit bus. The WM8143-10 can be configured for
pixel-by-pixel or line-by-line multiplexing operation. Reset
level clamp and/or CDS features can be optionally
bypassed. The device configuration is programmed either
via a simple serial interface or via an eight-bit parallel
interface.
The serial/parallel interfaces of the WM8143-10 are
control compatible with those of the WM8144-10 and
WM8144-12.
Features
• Reset level clamp
• Correlated double sampling (CDS)
• Fine offset level shifting
• Programmable gain amplification
• 10-bit ADC with maximum 6 MSPS
• Simple clocking scheme
• Control by serial or parallel interface
• Time multiplexed eight-bit data output mode
• 32 pin TQFP package
• Interface compatible with WM8144-10 and
WM8144-12
Applications
• Flatbed scanners
• Sheet feed scanners
• Film scanners
• CCD sensor interfaces
• Contact image sensor (CIS) interfaces
Block Diagram
VRLC
VRU VRT
VRB
VMID
VSMP MCLK RLC
AGND DGND DVDD AVDD
VMID
RINP
GINP
BINP
CL RS VS
S/H
S/H
CDS
S/H
S/H
CDS
MUX
PGA
5-BIT REG
PGA
5-BIT REG
S/H
S/H
CDS
PGA
5-BIT REG
TIMING CONTROL
OFFSET
++
8-BIT +
SIGN DAC
VMID
OFFSET
++
8-BIT +
SIGN DAC
VMID
OFFSET
++
8-BIT +
SIGN DAC
VMID
M
U
X
WM8143-10
10-bit
ADC
10/8
MUX
CONFIGURABLE
SERIAL/PARALLEL
CONTROL INTERFACE
OEB
OP[9:0]
SDI / DNA
SCK / RNW
SEN / STB
NRESET
Production Data datasheets
contain final specifications current
on publication date. Supply of
products conforms to Wolfson
Microelectronic's terms and
conditions.
Wolfson Microelectronics ©1998 Wolfson Microelectronics Ltd.
Lutton Court, Bernard Terrace, Edinburgh, EH8 9NX, UK
Tel: +44 (0) 131 667 9386 Fax: +44 (0) 131 667 5176
email: [email protected]
www: http://www.wolfson.co.uk
1 page  
Production Data
WM8143-10
Test Characteristics
AVDD = DVDD = 4.75V to 5.25V, AGND = DGND = 0V … TA = 0oC to +70oC, MCLK = 12MHz, unless otherwise stated
PARAMETER
SYMBOL
SEN Pulse Width
Parallel Interface
RNW Low to OP[9:2] Tri-state
Address Setup Time to STB
Low
DNA Low Setup Time to STB
Low
Strobe Low Time
Address Hold Time from STB
High
DNA Low Hold Time from
STB High
Data Setup Time to STB Low
DNA High Setup Time to STB
Low
Data Hold Time from STB
High
Data High Hold Time from
STB High
RNW High to OP[9:2] Output
tSEW
tOPZ
tASU
tADLS
tSTB
tAH
tADLH
tDSU
tADHS
tDH
tADHH
tOPD
TEST
CONDITIONS
MIN
50
0
10
50
10
10
0
10
10
10
0
TYP
MAX
20
UNIT
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
ns
Wolfson Microelectronics
5
PD.Rev 3f June 98
5 Page 
Production Data
WM8143-10
MCLK
VSMP
RLC 1
Input video
r,g,b
X
X0X
r,g,b
RLC on this pixel
X 0X
r,g,b
No RLC on this pixel
Figure 7 RLC Timing
Video Sampling Options
The WM8143-10 can interface to CCD sensors using
six basic modes of operation (summarised in Table 3).
Mode configurations are controlled by a combination of
control bits and timing applied to MCLK and VMSP
pins. The default operational mode is mode 1: colour
with CDS enabled.
Colour Mode Definitions (Mode 1)
Figure 9 summarises the timing relationships. MCLK is
applied at twice the required ADC conversion rate.
Synchronisation of sampling and channel multiplexing
to the incoming video signal is performed by the VSMP
pulse (active high). The three input channels (R,G,B)
are sampled in parallel on the rising edge of MCLK
following a VSMP pulse. The sampled data is
multiplexed into a single data stream at three times the
VSMP rate, passes through the internal pipeline and
emerges on the OP[9:0] bus. Both Correlated Double
Sampling (CDS) and Single Ended Sampling modes of
operation are available.
Monochrome Mode Definitions
One input channel is continuously sampled on the
rising edge of MCLK following a VSMP pulse. The user
can specify which input channel (R,G,B) is to be
sampled by writing to the WM8143-10 internal control
registers. There are four separate monochrome modes
with different maximum sample rates and CDS
availability.
Monochrome Mode (Mode 2)
Figure 10 summarises the timing relationships. The
timing in this mode is identical to mode 1 except that
one input channel is sampled three times (due to the
multiplexer being held in one position) and passes
through the device as three separate samples. The last
two samples can be ignored at the output OP[9:0].
Fast Monochrome Mode (Mode 3)
Figure 11 summarises the timing relationships. This
mode allows the maximum sample rate to be increased
to 4 MSPS. This is achieved by altering the
MCLK:VSMP ratio to 3:1. In this mode, the timing of
RS and CL must be fixed (refer to Table 3). The
sampled video data will pass through the internal
pipeline and emerge on the OP[9:0] bus.
Max. Speed Monochrome Mode (Mode 4)
Figure 12 summarises the timing relationships. This
mode allows the maximum sample rate to be increased
to 6 MSPS. This is achieved by altering the
MCLK:VSMP ratio to 2:1. The latency through the
device is identical to modes 1 and 2. CDS is not
available in this mode.
Slow Colour Mode (Mode 5)
Figure 13 summarises the timing relationships. This
mode is identical to Mode 1 except that the MCLK to
VSMP ratio is 8 : 1 and the maximum sample rate is
1.5 MSPS. To obtain a ratio of 4:4 between the video
sample position and the reset sample position, Setup
Register 3 CDSREF1-0 control bits b[5:4] should be set
to 10. The first three of the four output words are valid.
Slow Monochrome Mode (Mode 6)
Figure 14 summarises the timing relationships. This
mode is identical to mode 2 except that the MCLK to
VSMP ratio is 8 : 1 and the maximum sample rate is
1.5 MSPS. To obtain a ratio of 4:4 between the video
sample position and the reset sample position, Setup
Register 3 CDSREF 1-0 control bits b[5:4] should be
set to 10. The first of the four output words is the only
valid output.
Input Impedance
The input impedance of the WM8143-10 is dependent
upon the sampling frequency of the input signal and the
gain that the PGA is set to. This is due to the effective
capacitance of the ‘sample and hold’ circuits (Figure 8).
RINP/VMID
S/H
C
VMID
PGA
VS/RS
Figure 8 Input Impedance S/H Circuit
When the VS/RS control is activated the switch closes
and the effective impedance of the input is 1/CF where
the value of C changes from 0.3pF for minimum gain to
Wolfson Microelectronics
PD.Rev 3f June 98
11
11 Page | ||
| Páginas | Total 24 Páginas | |
| PDF Descargar | [ Datasheet WM8143-10.PDF ] | |
Hoja de datos destacado
| Número de pieza | Descripción | Fabricantes |
| WM8143-10 | 10-bit/6MSPS CCD Signal Processor | Wolfson Microelectronics plc |
| WM8143-12 | 12-bit/4MSPS CCD Signal Processor | Wolfson Microelectronics plc |
| Número de pieza | Descripción | Fabricantes |
| SLA6805M | High Voltage 3 phase Motor Driver IC. |
 Sanken |
| SDC1742 | 12- and 14-Bit Hybrid Synchro / Resolver-to-Digital Converters. |
 Analog Devices |
|
DataSheet.es es una pagina web que funciona como un repositorio de manuales o hoja de datos de muchos de los productos más populares, |
| DataSheet.es | 2020 | Privacy Policy | Contacto | Buscar |