1 tracking state, 2 cpu state, 3 trickle state – Rikaline GPS-20 User Manual

GPS-20 Operating Manual

Rikaline

Rikaline

Marketing Corp.

5F-1, 125, Roosevelt Road, Sec. 5, Taipei, Taiwan 116

Tel: ++886 2 2934 5456 Fax: ++886 2 2934 4373 E-Mail:

[email protected]

web:

www.rikaline.com.tw

8

on. To achieve the faster start-up offered by a hot start or warm start, either a battery backup input

must be connected or a recharge battery installed

.

Table 1-3 Backup Battery Voltage Range

Board

MIN

MAX

GPS-20 2.5

3.3

With a 3.3V Lithium-Ion (2.3mAh) rechargeable .To maximize battery lifetime (3~5 years), the battery
voltage should not exceed 3.3V.

3.2.13 GPIO Functions

Several I/Os of CPU are connected to the digital interface connector for consumer applications and

are labeled GPIOA to GPIOI.

3.2.14 JTAG Functions

The JTAG interface provides a standard development/debugging interface. A simple header connects
to a variety of the off-the-shelf emulators to provide single-step, trap and access to all the internal
registers of the GSP2e.

3.3 TricklePower

TM

Description

The GPS-20 design includes all the functionality necessary to implement the SiRF TricklePower



mode of operation. In this mode, the lowest average power dissipation is achieved by powering down

the board (after a position is determined) in such a manner that when it is turned back on it can

recomputed a position fix in the shortest amount of time. Standard TricklePower operates in three

states

3.3.1 Tracking State

In this state, the board is fully powered, tracking satellites, and gathering data.

3.3.2 CPU State

In this mode, the GRF2i has been turned off which removes the clock to the GSP2e. Without a clock,

the GSP2e is effectively powered down (although the RTC keeps running). The CPU would switch to

ECLK and kept running to process the GPS data until a position fix is determined and the result has

been transmitted by the serial communication interface.

3.3.3 Trickle State

In this state, the CPU is in a low power standby state and the receiver clocks are off with only the

RTC clock active. After a set amount of time, the RTC generates an NMI signal to wake up the

ARM-7 microprocessor and reset the receiver back to tracking state.

The default time for each TricklePower mode and the approximate current consumed (in each mode)

is shown in Table 1-4. For example, the TricklePower duty cycle (20%), the average receiver power
dissipation is approximately 165mW (60mA @ 3.3V) while maintaining one-second update rate.

Table 1-4 TricklePower

TM

Power Consumption

Mode

Time

Msec

+5V

Current

mA

+3.3V

Current

mA