MM232R FTDI, MM232R Datasheet - Page 16

Interface Modules & Development Tools USB to Serial UART Mini Dev Mod FT232R

MM232R

Manufacturer Part Number

MM232R

Description

Interface Modules & Development Tools USB to Serial UART Mini Dev Mod FT232R

Manufacturer

FTDI

Type

Development Moduler

Datasheets

1.MM232R.pdf (24 pages)

2.MM232R.pdf (19 pages)

Specifications of MM232R

Interface Type

USB, Serial, UART

Data Bus Width

Serial

Operating Supply Voltage

1.8 V to 5.25 V

Product

Interface Modules

Supported Devices

FT232RQ

Svhc

No SVHC (18-Jun-2010)

Development Tool Type

Development Kit

Kit Features

Single Chip USB To Asynchronous Serial Data Transfer Interface, Entire USB Protocol Handled

Rohs Compliant

Yes

Supported Families

FT232RQ

Tool / Board Applications

USB To Serial UART Converter

For Use With/related Products

FT232R

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

626-DLP-MM232R

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6.3 USB Bus Powered with Power Switching Configuration

Figure 6.3 Bus Powered with Power Switching Configuration

USB Bus Powered circuits need to be able to power down in USB suspend mode in order to meet the

<=500μA total USB suspend current requirement (including external logic). Some external can power itself

down into a low current state by monitoring the PWREN# signal. For external logic that cannot power itself

down in this way the FT232R provides a simple but effective way of turning off power to external circuitry

during USB suspend.

Figure 7.3 shows how to use a discrete P-Channel Logic Level MOSFET to control the power to external logic

circuits. A suitable device would be an International Rectifier (www.irf.com) IRLML6402, or equivalent. It is

recommended that a “soft start” circuit consisting of a 1kΩseries resistor and a 0.1μF capacitor are used to

limit the current surge when the MOSFET turns on. Without the soft start circuit there is a danger that the

transient power surge of the MOSFET turning on will reset the FT232R, or the USB host / hub controller.

The values used here allow attached circuitry to power up with a slew rate of ~12.5V per millisecond, in

other words the output voltage will transition from GND to 5V in approximately 400 microseconds.

Alternatively, a dedicated power switch I.C. with inbuilt “soft-start” can be used instead of a MOSFET. A

suitable power switch I.C. for such an application would be a Micrel (www.micrel.com) MIC2025-2BM or

equivalent.

Please note the following points in connection with power controlled designs:

iv) For USB high-power bus powered device (one that consumes greater than 100mA, and up to 500mA

iii) One of the CBUS Pins should be configured as PWE# in the internal EEPROM, and should be used to

ii) Set the Pull-down on Suspend option in the internal EEPROM.

v) For 3.3V power controlled circuits the FT232R‟s VCCIO pin must not be powered down with the

i) The logic to be controlled must have its own reset circuitry so that it will automatically reset itself

when power is applied on coming out of suspend.

switch the power supply to the external circuitry.

of current from the USB bus), the power consumption of the device should be set in the max power

field in the internal EEPROM. A high-power bus powered device must use this descriptor in the

internal EEPROM to inform the system of its power requirements.

external circuitry (the PWREN# signal gets its VCC supply from VCCIO). Either connects the power

switch between the output of the 3.3V regulator and the external 3.3V logic or power VCCIO from the

3V3OUT pin of the FT232R.

MM232R USB - Serial UART Development Module Incorporating Clock Generator

Document Reference No.: FT_000214

Clearance No.: FTDI# 132

Datasheet Version 1.1

MM232R FTDI, MM232R Datasheet - Page 16

MM232R

Specifications of MM232R

Related parts for MM232R