Squidge
Certified Guru
Main power @ 3.6V. System idle (no screen updates, but LCD, backlight + telnet active)
Firmware 2.0.
32Mhz - ~240mA
64Mhz - ~260mA
96Mhz - ~270mA
128Mhz - ~290mA
160Mhz - ~300mA
192Mhz - ~320mA
224Mhz - ~330mA
256Mhz - ~350mA
285Mhz - ~360mA
Anything higher crashes my gp2x
"Standard" speeds:
200Mhz - ~320mA
240Mhz - ~340mA
When application constantly updates frame buffer, current consumption is increased by approximately 40mA
Next project: How low can I get the current consumption? I'm thinking of a "standby" feature, so you can pause emu's and the like, and the system goes into a low-power mode. Maybe do that by putting the processor into some kind of sleep mode with perhaps some kind of wake on interupt, disable the net2272, backlight, lcd, and anything else we can. Ground all unused gpio pins to prevent leakage, etc...
Linux may not like it too much, mind, but it doesn't really have a choice
Firmware 2.0.
32Mhz - ~240mA
64Mhz - ~260mA
96Mhz - ~270mA
128Mhz - ~290mA
160Mhz - ~300mA
192Mhz - ~320mA
224Mhz - ~330mA
256Mhz - ~350mA
285Mhz - ~360mA
Anything higher crashes my gp2x
"Standard" speeds:
200Mhz - ~320mA
240Mhz - ~340mA
When application constantly updates frame buffer, current consumption is increased by approximately 40mA
Next project: How low can I get the current consumption? I'm thinking of a "standby" feature, so you can pause emu's and the like, and the system goes into a low-power mode. Maybe do that by putting the processor into some kind of sleep mode with perhaps some kind of wake on interupt, disable the net2272, backlight, lcd, and anything else we can. Ground all unused gpio pins to prevent leakage, etc...
Linux may not like it too much, mind, but it doesn't really have a choice