JAJSGY7B September 2017 – February 2019 TPS61085A-Q1
PRODUCTION DATA.
The regulator loop must be compensated by adjusting the external components connected to the COMP pin. The COMP pin is the output of the internal transconductance error amplifier. Standard values of RCOMP = 13 kΩ and CCOMP = 3.3 nF works for the majority of the applications.
See Table 5 for dedicated compensation networks giving an improved load transient response. Equation 8 can be used to calculate RCOMP and CCOMP:
SPACE
FREQUENCY | L | VS | VIN ±20% | RCOMP | CCOMP |
---|---|---|---|---|---|
High (1.2 MHz) | 3.3 µH | 15 V | 5 V | 82 kΩ | 1.1 nF |
3.3 V | 75 kΩ | 1.6 nF | |||
12 V | 5 V | 51 kΩ | 1.1 nF | ||
3.3 V | 47 kΩ | 1.6 nF | |||
9 V | 5 V | 30 kΩ | 1.1 nF | ||
3.3 V | 27 kΩ | 1.6 nF | |||
Low (650 kHz) | 6.8 µH | 15 V | 5 V | 43 kΩ | 2.2 nF |
3.3 V | 39 kΩ | 3.3 nF | |||
12 V | 5 V | 27 kΩ | 2.2 nF | ||
3.3 V | 24 kΩ | 3.3 nF | |||
9 V | 5 V | 15 kΩ | 2.2 nF | ||
3.3 V | 13 kΩ | 3.3 nF |
Table 5 gives conservatives RCOMP and CCOMP values for certain inductors, input and output voltages providing a very stable system. For a faster response time, a higher RCOMP value can be used to enlarge the bandwidth, as well as a slightly lower value of CCOMP to keep enough phase margin. These adjustments must be performed in parallel with the load transient response monitoring of TPS61085A-Q1.