MT9V032L12STC ES Micron Technology Inc, MT9V032L12STC ES Datasheet - Page 12

MT9V032L12STC ES

Manufacturer Part Number

MT9V032L12STC ES

Description

Manufacturer

Micron Technology Inc

Type

CMOSr

Datasheet

1.MT9V032L12STC_ES.pdf (13 pages)

Specifications of MT9V032L12STC ES

Sensor Image Color Type

Color

Sensor Image Size Range

250,920 to 480,000Pixels

Sensor Image Size

752x480Pixels

Operating Supply Voltage (min)

Operating Supply Voltage (typ)

3.3V

Operating Supply Voltage (max)

3.6V

Operating Temp Range

-30C to 70C

Package Type

PLCC

Operating Temperature Classification

Commercial

Mounting

Surface Mount

Pin Count

Lead Free Status / RoHS Status

Supplier Unconfirmed

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Broadcast and Individual Writes for Stereoscopic Topology

Figure 8:

PDF: 09005aef824c9998/Source: 09005aef824c999c

MT9V032_LDS_2.fm - Rev. B 3/07 EN

Two-Wire Serial Interface Configuration in Stereoscopic Mode

In stereoscopic mode, the two sensors are required to run in lockstep. This implies that

control logic in each sensor is in exactly the same state as its pair on every clock. To

ensure this, all inputs that affect control logic must be identical and arrive at the same

time at each sensor.

These inputs include:

• system clock

• system reset

• two-wire serial interface clk - SCL

• two-wire serial interface data - SDA

The setup in Figure 8 shows how the two sensors can maintain lockstep when their

configuration registers are written through the two-wire serial interface. A WRITE to

configuration registers would either be broadcast (simultaneous WRITES to both

sensors) or individual (WRITE to just one sensor at a time). READs from configuration

registers would be individual (READs from just one sensor at a time).

One of the two serial interface slave address bits of the sensor is hardwired. The other is

controlled by the host. This allows the host to perform either a broadcast or a one-to-

one access.

Broadcast WRITES are performed by setting the same S_CTRL_ADR input bit for both

slave and master sensor. Individual WRITES are performed by setting opposite

S_CTRL_ADR input bit for both slave and master sensor. Similarly, individual READs are

performed by setting opposite S_CTRL_ADR input bit for both slave and master sensor.

26.6 MHz

Osc.

All system clock lengths (L) must be equal.

SCL and SDA lengths to each sensor (from the host) must also be equal.

HOST

CLK

MT9V032: 1/3-Inch Wide-VGA Digital Image Sensor

SCL

SDA

S_CTRL_ADR[0]

SCL

SENSOR

SLAVE

Host launches SCL and SDA on positive

edge of SYSCLK.

SDA

Micron Technology, Inc., reserves the right to change products or specifications without notice.

CLK

Appendix A – Serial Configurations

S_CTRL_ADR[0]

SCL

MASTER

SENSOR

SDA

CLK

Preliminary

‡

MT9V032L12STC ES Micron Technology Inc, MT9V032L12STC ES Datasheet - Page 12

MT9V032L12STC ES

Specifications of MT9V032L12STC ES

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