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- Re: Power up problem :LTC3589 PMIC - i.mx536
Power up problem :LTC3589 PMIC - i.mx536
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Power up problem :LTC3589 PMIC - i.mx536
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Hi, I'm using LTC3589 for powering freescale imx536 processor. My assumption was that without accessing using I2C_SDA and I2C_SCLK , using the default values in the LxDTVx and BxDTVx , and using R1 and R2 resistor values I can power up the system . But during the measurements I have observed the following problem: Altough Power_ON is continously high following signals have only the the intended values for 14 msecs within one second period. -------------------------------------------------------------- LTC_WAKE , LDO2_1V3 , LDO4_2V8 , SW1_1V1 , SW2_1V3 , SW3_2V5 , VDD_ANA_PLL Following signals are continously high (at expected values) ----------------------------------------------------------- LDO1_1V3, LDO3_2V8, SW4_3V3 My Board configuraion is as follows : For power on sequencing ,I have connected the enables and regulator outputs as follows. By forcing the POWER_ON pin to high the WAKE signal will be high. WAKE= ENable-2 => SW2_1V3 will be up SW2_1V3 =Enable-3 => SW3_2V5 will be up Sw3_2V5 =VDD_REG of imx53 imx53 internal regulators will be up VDD_ANA_PLL=1.8V will be generated VDD_ANA_PLL=En_LDO2=En_LDO34 =>SW1_1V1 , LDO3_2V8 ,LDO4_2V8,LDO2_1V3 will be up VDD_ANA_PLL=Enable of TPS54218(for 1V8 DDR2 voltage generation) DDR2_1V8=Enable-4 => SW4_3V3 will be up
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I replaced the LTC3589 with LTC3589-2 (samples) .The problem is solved.
According the LTC support:
"For the LTC3589 (or -1), no regulator can have more than 300mV on it when the regulator is enabled, or it will refuse to start. For the LT3589-2 this rule has been removed, and the regulator will start even when there is 300mV or more of voltage on the output when the regulator is enabled.
Usually with applications processors this is leakage from a regulator that is on to one that has not yet started, resulting in failing the 300mV prebias rule."
Thanks to the support.
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There is something I don´t understand. If you are using the LTC3589, what do you do with the output of LDO3 (for this reference is +1.8 V?. But if you don't use the I2C and you use the LTC3589-1, how do you turn on LDO4 (only switches on by I2C)? .
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I ordered LTC3589-1 but somehow procurement bought LTC3589 .
Do you thing that the following mode of the operation is possible?
VSTB is connected to ground and Power_on is driven by a watchdog timer ,which goes high 400msecs after power up .
No need to access the I2C registers of PMIC , to keep the regulators alive ?
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I've also used this PMIC for our design and, I also had some problems... I assume you are using LTC3589-1 or LTC3589 -2 (and not LTC3589). I recomend you see the following documents:
a) From Freescale, MX53UG.pdf, pages 105 and following,
b) from Linear the last revision of LTC3589 datasheet, page 46.
