RN174W-I/RM Roving Networks, RN174W-I/RM Datasheet - Page 7

RN174W-I/RM

Manufacturer Part Number

RN174W-I/RM

Description

WiFi / 802.11 Development Tools SURFBOARD PCB FOR RN-171 W/ WIRE ANT

Manufacturer

Roving Networks

Datasheet

1.RN-174-K.pdf (8 pages)

Specifications of RN174W-I/RM

Rohs

yes

Product

Evaluation Boards

Tool Is For Evaluation Of

RN-174

Protocol Supported

802.11 b/g

Frequency

2.4 GHz

Interface Type

RS-232, UART

Operating Supply Voltage

3.3 V

Antenna Connector Type

Wire

Description/function

RN-174 board with wire antenna, standard firmware

Dimensions

2 in x 1.1 in x 0.45 in

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 45 C

Modulation Technique

802.11b/g, DSSS, OFDM

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Figure 3. Jumper Settings for Powering the Evaluation Board

Configuring the Module for Low-Current Consumption

The RN-171 module draws only 4 uA when it is in a sleep state. To achieve this low current consumption:

Sensor Interfaces

The sensor inputs must not exceed 1.2 V. The ADC saturates at 400 mV. Roving Networks recommends that you use the

sensor power output to drive any analog devices that are attached to the sensor pins.

Ad Hoc & Restoring Factory Settings

Jumper J6 on the jumper header is connected to GPIO9. When this jumper is in place, the module powers up in ad hoc

mode. If the jumper is then toggled 5 times, the module is restored to the initial factory default configuration. This setting is

useful for cases in which the module is misconfigured and is no longer responding.

www.rovingnetworks.com

•

NOTE: If the RS-232 chip is installed, the current consumption will be around 88 uA when the 10-pin serial cable is

NOTE:

Low-Voltage Mode (Battery Boost Enabled)—When the board is configured in low-voltage mode, it MUST be

mode, the battery boost circuit is enabled, which allows the input voltage to drop down to 2.0 V DC.

NOTE:

High-Voltage Mode (Battery Boost Disabled)—Default. When shipped, the board is set up to use this mode.

When configured in high-voltage mode (4-16V DC), you must apply power on the power connector (J7) or on the

RS-232 header (J3). The battery boost circuit is disabled in this mode.

External Power Mode—This mode is used when powering the module from a regulated 3.3-V power supply to the

UART header (J8) or if you are using the RN-G2ISP to power the module. In this mode, the module cannot be

powered from the RS-232 header (J8) or the power connector (J7).

GPIO pins 4, 5, 6, 7, and 8 must be pulled to ground using the pull up/down jumper (J2).

You should remove the RS-232 chip from the board or pull RTS and CTS to GND on the UART header (J8)

(optional).

Low-Voltage Mode

disconnected and 160 uA when the cable is connected to the RS-232 device.

Sensor pins 2 and 3 have a resistor network in front of sensors 4 and 5, respectively, so these pins can be

driven with up to 5 V DC.

Applying a voltage greater than 3.7 V DC when the board is configured in low-voltage mode will

permanently damage the RN-171 module on the board, causing it to malfunction.

High-Voltage Mode (Default)

Version 1.3r 4/9/2012

External Power Mode

RN -17 4-DS

RN174W-I/RM Roving Networks, RN174W-I/RM Datasheet - Page 7

RN174W-I/RM

Specifications of RN174W-I/RM

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