TL431CDR2G ON Semiconductor, TL431CDR2G Datasheet - Page 12

TL431CDR2G

Manufacturer Part Number

TL431CDR2G

Description

IC REFERENCE PROG 2.5V 8SOIC

Manufacturer

ON Semiconductor

Datasheet

1.TL431ACLPG.pdf (18 pages)

Specifications of TL431CDR2G

Reference Type

Shunt, Adjustable

Voltage - Output

2.495 ~ 36 V

Tolerance

±2.2%

Temperature Coefficient

50ppm/°C

Number Of Channels

Current - Cathode

1mA

Current - Output

100mA

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

8-SOIC (3.9mm Width)

Product

Voltage References

Topology

Shunt References

Output Voltage

Adjustable

Initial Accuracy

2.2 %

Average Temperature Coefficient (typ)

50 PPM / C

Series Vref - Input Voltage (max)

37 V

Shunt Current (max)

100 mA

Maximum Operating Temperature

+ 70 C

Minimum Operating Temperature

0 C

Mounting Style

SMD/SMT

Shunt Current (min)

1 mA

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Voltage - Input

Current - Quiescent

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

TL431CDR2GOSTR

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Example 2.

reference input pin. An examination of the data sheet

stability boundary curve (Figure 15) shows that this value of

load capacitance and cathode current is on the boundary.

Define the transfer gain.

The asymptotic plot may be expressed as the following

equation:

Av + 615

The DC gain is:

The resulting open loop Bode plot is shown in Figure 33.

Figure 32. Example 1 Circuit Open Loop Gain Plot

-10

-20

= 7.5 mA, R

(2.323)(1.0 M)(1.25 m)(2200) + 6389 + 76 dB

TL431 OPEN-LOOP VOLTAGE GAIN VERSUS FREQUENCY

Input

8.25 k

1 )

9.0 mF

G + G

8.0 kHz

= 2.2 kW, C

15 k

f, FREQUENCY (Hz)

1 )

GoR

= 0.01 mF. Cathode tied to

Ref

500 kHz

500 k

60 kHz

1.78 V

Figure 31. Simplified TL431 Device Model

1 )

ref

7.2 kHz

http://onsemi.com

ref

formed by the load capacitance and load resistance.

250 kHz, having a phase margin of about −46 degrees.

Therefore, instability of this circuit is likely.

for stabilizing this circuit is to add a zero. However, that can

only be done by adding a series resistance to the output

capacitance, which will reduce its effectiveness as a noise

filter. Therefore, practically, in reference voltage

applications, the best solution appears to be to use a smaller

value of capacitance in low noise applications or a very

large value to provide noise filtering and a dominant pole

rolloff of the system.

Note that the transfer function now has an extra pole

Note that the crossover frequency in this case is about

With three poles, this system is unstable. The only hope

Figure 33. Example 2 Circuit Open Loop Gain Plot

-20

Anode

1.0 M

Cathode

TL431 OPEN-LOOP BODE PLOT WITH LOAD CAP

20 pF

15.9 k

10 M

f, FREQUENCY (Hz)

1.0 mmho

0.265 pF

TL431CDR2G ON Semiconductor, TL431CDR2G Datasheet - Page 12

TL431CDR2G

Specifications of TL431CDR2G

Available stocks

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