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參數(shù)資料
| 型號: | TPS65185RSLT |
| 廠商: | TEXAS INSTRUMENTS INC |
| 元件分類: | 電源管理 |
| 英文描述: | POWER SUPPLY SUPPORT CKT, PQCC48 |
| 封裝: | 6 X 6 MM, 0.4 MM PITCH, 0.9 MM HEIGHT, PLASTIC, VQFN-48 |
| 文件頁數(shù): | 8/49頁 |
| 文件大小: | 2488K |
| 代理商: | TPS65185RSLT |
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PRODUCTPREVIEW
SLVSAQ8A
– FEBRUARY 2011 – REVISED MAY 2011
WAKE-UP AND POWER UP SEQUENCING
The power-up/down order and timing is defined by user register settings. The default settings support the E Ink
Vizplex
panel and typically do not need to be changed.
In SLEEP mode the TPS65185 is completely turned off, the I2C registers are reset, and the device does not
accept any I2C transaction. Pull the WAKEUP pin high with the PWRUP pin low and the device enters STANDBY
mode which enables the I2C interface. Write to the UPSEQ0 register to define the order in which the output rails
are enabled at power-up and to the UPSEQ1 registers to define the power-up delays between rails. Finally, set
the ACTIVE bit in the ENABLE register to
‘1’ to execute the power-up sequence and bring up all power rails.
Alternatively pull the PWRUP pin high (rising edge).
After the ACTIVE bit has been set, the negative boost converter (VN) is powered up first, followed by the positive
boost (VB). The positive boost enable is gated by the internal power-good signal of the negative boost. Once VB
is in regulation, it issues an internal power-good signal and after delay time UDLY1 has expired, STROBE1 is
issued. The rail assigned to STROBE1 will power up next and after its power-good signal has been asserted and
delay time UDLY2 has expired, STROBE2 is issued. The sequence continues until STROBE4 has occurred and
the last rail has been enabled.
To power-down the device, set the STANDBY bit of the ENABLE register to
‘1’ or pull the PWRUP pin low (falling
edge) and the TPS65185 will power down in the order defined by DWNSEQx registers. The delay times DDLY2,
DDLY3, and DDLY4 are weighted by a factor of DFCTR which allows the user to space out the power-down of
the rails to avoid crossing during discharge. DFCTR is located in register DWNSEQ1. The positive boost (VB) is
shut down together with the last rail at STROBE4. However, the negative boost (VN) remains up and running for
another 100 ms (discharge delay) to allow complete discharge of all rails. After the discharge delay, VN is
powered down and the device enters STANDBY or SLEEP mode, depending on the WAKEUP pin.
If either the ACTIVE bit is set or the PWRUP pin is pulled high while the device is powering down, the
power-down sequence (STROBE1-4) is completed first, followed by a power-up sequence. VB and VN may or
may not be powered down and the discharge delay may be cut short depending on the relative timing of
STROBE4 to the new power-up event.
During power-up, if the STANDBY bit is set or the PWRUP pin is pulled low, the power-up sequence is aborted
and the power-down sequence starts immediately.
DEPENDENCIES BETWEEN RAILS
Charge pumps, LDOs, and VCOM driver are dependent on the positive and inverting buck-boost converters and
several dependencies exist that affect the power-up sequencing. These dependencies are listed below.
1. Inverting buck-boost (DCDC2) must be in regulation before positive boost (DCDC1) can be enabled.
Internally, DCDC1 enable is gated by DCDC2 power good.
2. Positive boost (DCDC1) must be in regulation before LDO2 (VNEG) can be enabled. Internally LDO2 enable
is gated DCDC1 power-good.
3. Positive boost (DCDC1) must be in regulation before VCOM can be enabled; Internally VCOM enable is
gated by DCDC1 power good.
4. Positive boost (DCDC1) must be in regulation before negative charge pump (CP2) can be enabled. Internally
CP2 enable is gated by DCDC1 power good.
5. Positive boost (DCDC1) must be in regulation before positive charge pump (CP1) can be enabled. Internally
CP1 enable is gated by DCDC1 power good.
6. LDO2 must be in regulation before LDO1 can be enabled. Internally LDO1 enable is gated by LDO2 power
good.
16
Copyright
2011, Texas Instruments Incorporated
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