XCM20014IBMN Freescale, XCM20014IBMN Datasheet - Page 12

XCM20014IBMN

Manufacturer Part Number

XCM20014IBMN

Description

Manufacturer

Freescale

Type

CMOSr

Datasheet

1.XCM20014IBMN.pdf (54 pages)

Specifications of XCM20014IBMN

Sensor Image Color Type

Color

Sensor Image Size Range

250,920 to 480,000Pixels

Sensor Image Size

640x480Pixels

Operating Supply Voltage (min)

Operating Supply Voltage (typ)

3.3V

Operating Supply Voltage (max)

3.6V

Operating Temp Range

0C to 40C

Package Type

CLCC

Operating Temperature Classification

Commercial

Mounting

Surface Mount

Pin Count

Lead Free Status / RoHS Status

Supplier Unconfirmed

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MOTOROLA

The standby mode is activated by applying an active

high signal to the STBY pin (#27). The sensor can also

be put in the stand by mode via bit <0> on the Power

Configuration Register (OC

The user may also reduce power consumption in the ac-

tive processing mode by placing the MCM20014’s out-

puts in the tri-state mode. This action may be

accomplished by placing the TS pin in the active high

state. This action can also accomplished by setting the

dbt bit on the

(0C

2.4.3 References CVREFP, CVREFM

The MCM20014 contains all internally generated refer-

ences and biases on-chip for system simplification. An

internally generated differential bandgap regulator de-

rives all the ADC and other analog signal processing re-

quired references. The user should connect 0.1µF

3.0 MCM20014 Waveform Diagrams

The following set of diagrams depict the input/output

waveform relationships for the pixel data.

3.1 CFCM Data Waveforms

The following set of waveforms depict the CFCM output

data stream from a complete frame down to individual

signal relationships.

600

500

400

300

200

100

Power Configuration Register; Table

Figure 14. External Resistor Effect on Power Consumption at 13.5Mhz MCLK

Figure 15

)

depicts a complete frame

Freescale Semiconductor, Inc.

For More Information On This Product,

Internal Resistor Power Consumption

Go to: www.freescale.com

External Resistor (k

14,

capacitors to the CVREFP and CVREFM pins (#19 and

#18 respectively) to accurately hold the biases.

2.4.4 Internal Timing Control Register

The

control over pulse widths of critical internal timing sig-

nals. The user must write an 00

tion to assure proper operation of the MCM20014.

2.4.5 Internal Bias Current Control

The ASP chain has internally generated bias currents

that result in an operating power consumption of nearly

400mW. By attaching a resistor between pin 13, EX-

TRES; and ground, the user can reduce the power con-

sumption of the device. This feature is enabled by

writing a 1

ter.

achieved with an external resistor at a specific clock

rate. Additional power savings can be acheived at lower

clock rates.

of a CFCM output data stream in default mode.

Figure 17

forms with the Internal Timing Control Register loaded

with an 00

depicts the first row of data in the frame.

Figure 14

Internal Timing Control Register; Table 28

and

to bit res of the

Ω

depicts the power savings that can be

Figure 18

)

depict the same CFCM wave-

Power Configuration Regis-

into this address loca-

allows

Figure

MCM20014

XCM20014IBMN Freescale, XCM20014IBMN Datasheet - Page 12

XCM20014IBMN

Specifications of XCM20014IBMN

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