SPRS814D March 2012 – October 2019 TMS320C6655 , TMS320C6657
PRODUCTION DATA.
请参考 PDF 数据表获取器件具体的封装图。
This section defines the requirements for a power up sequencing from a power-on reset condition. There are two acceptable power sequences for the device. The first sequence stipulates the core voltages starting before the I/O voltages as follows:
The second sequence provides compatibility with other TI processors with the I/O voltage starting before the core voltages as follows:
The clock input buffers for CORECLK, DDRCLK, SRIOSGMIICLK, MCMCLK, and PCIECLK use only CVDD as a supply voltage. These clock inputs are not fail-safe and must be held in a high-impedance state until CVDD is at a valid voltage level. Driving these clock inputs high before CVDD is valid could cause damage to the device. Once CVDD is valid it is acceptable that the P and N legs of these CLKs may be held in a static state (either high and low or low and high) until a valid clock frequency is needed at that input. To avoid internal oscillation the clock inputs should be removed from the high impedance state shortly after CVDD is present.
If a clock input is not used it must be held in a static state. To accomplish this the N leg should be pulled to ground through a 1 kΩ resistor. The P leg should be tied to CVDD to ensure it will not have any voltage present until CVDD is active. Connections to the I/O cells powered by DVDD18 and DVDD15 are not fail-safe and should not be driven high before these voltages are active. Driving these I/O cells high before DVDD18 or DVDD15 are valid could cause damage to the device.
The device initialization is broken into two phases. The first phase consists of the time period from the activation of the first power supply until the point in which all supplies are active and at a valid voltage level. Either of the sequencing scenarios described above can be implemented during this phase. Figure 6-1 and Figure 6-2 show both the core-before-I/O voltage sequence and the I/O-before-core voltage sequence. POR must be held low for the entire power stabilization phase.
This is followed by the device initialization phase. The rising edge of POR followed by the rising edge of RESETFULL will trigger the end of the initialization phase but both must be inactive for the initialization to complete. POR must always go inactive before RESETFULL goes inactive as described in the following sections. SYSCLK1 in the following section refers to the clock input that has been selected as the source for the main PLL and SYSCLK1 refers to the main PLL output that is used by the CorePac, see Figure 6-3 for more details.