FEATURES DESCRIPTIONS (CON.)
Input Under-Voltage Lockout
The input
Over-Current and Short-Circuit Protection
The NC series modules have
An over current condition is detected by measuring the voltage drop across the
The detection of the Rds(on) of the high side MOSFET also acts as an over temperature protection since high
The NC06/NC15/NC20 module has a trim range of 0.9V to 5.0V. The trim resistor equation for the NC6A/NC15A/ NC20A is :
Rs(Ω) = 1170
Vout − 0.9
Vout is the output voltage setpoint
Rs is the resistance between Trim and Ground Rs values should not be less than 280Ω
Output Voltage | Rs (Ω) |
+0.9 V | OPEN |
+1.2 V | 3.92K |
+1.5 V | 1.96K |
+1.8 V | 1.3K |
+2.5 V | 732 |
+3.3 V | 487 |
+5.0 V | 287 |
Figure 28: Typical trim resistor values
NC6A/15A/20A
Vout
Vin
1.3K
temperature will cause the Rds(on) of the MOSFET to increase, eventually triggering
Enable
Trim
Rt Vt
Rs
Output Voltage Programming
The output voltage of the NC series is trimmable by connecting an external resistor between the trim pin and output ground as shown Figure 27 and the typical trim resistor values are shown in Figure 28. The output can also be set by an external voltage connected to trim pin as shown in Figure 29.
NC6A/15A/20A
Ground Ground
Figure 29: Output voltage trim with voltage source
To use voltage trim, the trim equation for the NC6A/NC15A/ NC20A is (please refer to Fig. 29) :
Rt(kΩ) = | Rs(1.3Vt − 1.17) |
1.17 − Rs(Vout − 0.9) |
Vin
Vout
Vout is the desired output voltage Vt is the external trim voltage
Enable
Trim
Rs
Rs is the resistance between Trim and Ground (in KΩ)
Rt is the resistor to be defined with the trim voltage (in KΩ)
Ground Ground
Figure 27: Trimming Output Voltage
NC12S15A_01102008
Below is an example about using this voltage trim equation :
Example:
If Vt = 1.25V, desired Vout = 2.5V and Rs = 0.715KΩ
Rt(KΩ) = | Rs(1.3Vt − 1.17) | = 12.51KΩ | |
1.17 − Rs(Vout − 0.9) | |||
|
|
8