English
Language : 

TL5209_15 Datasheet, PDF (14/23 Pages) Texas Instruments – TL5209 500-mA Low-Noise Low-Dropout Voltage Regulator With Shutdown
TL5209
SLVS581B – SEPTEMBER 2006 – REVISED JUNE 2015
www.ti.com
9.2.2 Detailed Design Procedure
9.2.2.1 Setting the Output Voltage
The TL5209 develops a 1.242-V reference voltage, VREF, between the output and the adjust terminal. As shown
in Figure 40, this voltage is applied across resistor R1 to generate a constant current. The current IADJ from the
ADJ terminal could introduce DC offset to the output. Because, this offset is very small (about 50 nA), it can be
ignored. The constant current then flows through the output set resistor R2 and sets the output voltage to the
desired level. Equation 1 is used for calculating VOUT:
VOUT = 1.242 V × (1 + R2 / R1)
(1)
With an R1 resistance of 100 kΩ and a desired output voltage of 3.3 V, the value for R2 can be calculated:
3.3 V = 1.242 V × (1 + R2 / 100 kΩ)
(2)
100 kΩ × ((3.3 V / 1.242 V) - 1) = R2
(3)
R2 = 165.7 kΩ
(4)
Therefore, with an R2 resistance of 165.7 kΩ, the output voltage can be set to 3.3 V.
The TL5209 adjustable output should not be adjusted above 6.75 V ± 10% due to the internal Zener diode
clamping the output voltage above 6.75 V. Although IADJ is very small, R2 should be limited to less than 470 kΩ
for optimum performance.
9.2.2.2 Input Capacitor
If the input of the regulator is located more than ten inches from the power-supply filter, or if a battery is used to
power the regulator, TI recommends a minimum 1-μF input capacitor.
9.2.2.3 Output Capacitor
As with all PNP regulators, an output capacitor is needed for stability. The required minimum size of this output
capacitor depends on several factors, one of which is whether a bypass capacitor is used.
• With no bypass capacitor, TI recommends a minimum COUT of 1 μF.
• With a bypass capacitor of 470 pF (see Figure 40), TI recommends a minimum COUT of 2.2 μF.
• Larger values of COUT are beneficial, because they improve the regulator transient response.
Another factor that can determine the minimum size of the output capacitor is the load current. At low loads, a
smaller output capacitor is needed for stability.
The equivalent series resistance (ESR) of the output capacitor also can affect regulator stability. COUT should
have an ESR of ≉1 Ω, and it should have a resonant frequency greater than 1 MHz. Too low of an ESR can
cause the output to have a low-amplitude oscillation and/or underdamped transient response. Most tantalum or
aluminum electrolytic capacitors can be used for the output capacitors. However, care must be taken at low
temperatures, because aluminum electrolytics use electrolytes that can freeze at low temperature (≉ –30°C).
Solid tantalum capacitors do not exhibit this problem and should be used below –25°C.
9.2.2.4 Bypass Capacitor
An optional bypass capacitor, CBYP, can be externally connected to the regulator through the BYP pin for
improved noise performance. Connected to the internal voltage divider and the error amplifier of the regulator,
this bypass capacitor filters the noise of the internal reference and reduces the noise effects on the error
amplifier. The overall result is a significant drop in output noise of the regulator. TI recommends a 470-pF bypass
capacitor.
Adding a bypass capacitor has several effects on the regulator that must be taken into account. First, the bypass
capacitor reduces the phase margin of the regulator and, thus, the minimum COUT needs to be increased to 2.2
μF, as previously mentioned. Second, upon start-up of the regulator, the bypass capacitor has an effect on the
regulator turnon time. If a slow ramp-up of the output is needed, larger values of CBYP should be used.
Conversely, if a fast ramp-up of the output is needed, use a smaller CBYP or none at all.
If a bypass capacitor is not needed, BYP should be left open.
14
Submit Documentation Feedback
Product Folder Links: TL5209
Copyright © 2006–2015, Texas Instruments Incorporated