Ne w p rod uct, Electrical characteristics – Diodes ZXRE252 User Manual

ZXRE250/ZXRE252

VERY LOW CATHODE CURRENT ADJUSTABLE

PRECISION SHUNT REGULATOR

ZXRE250/ZXRE252

Document number: DS35228 Rev. 3 - 2

3 of 14

www.diodes.com

May 2011

© Diodes Incorporated

NE

W P

ROD

UCT

Electrical Characteristics

(T

A

= +25°C, unless otherwise noted)

Symbol

Parameter

Test Conditions

Min

Typ.

Max

Unit

V

REF

Reference voltage

V

KA

= V

REF

,

I

KA

= 10mA

ZXRE250A 2.470

2.495

2.520

V

ZXRE250B 2.482

2.495

2.507

V

V

DEV

Deviation of reference voltage over
full temperature range (Note 5)

V

KA

= V

REF

,

I

KA

= 10mA

T

A

= 0 to 70

o

C

6

16

mV

T

A

= -40 to 85

o

C

14

34

mV

T

A

= -40 to 125

o

C

14

34

mV

ΔV

REF

ΔV

KA

Ratio of the change in reference
voltage to the change in cathode
voltage

I

KA

= 10mA

V

KA

= 10V to V

REF

-1.4

-2.7

mV/V

V

KA

= 36V to 10V

-1 -2

mV/V

I

REF

Reference input current

I

KA

= 10mA, R1 = 10K

Ω, R2 = ∞

1 4

μA

ΔI

REF

I

REF

deviation over full temperature

range (Note 5)

I

KA

= 10mA, R1

= 10K

Ω, R2 = ∞

T

A

= 0 to 70

o

C

0.8

1.2

μA

T

A

= -40 to 85

o

C

0.8

2.5

μA

T

A

= -40 to 125

o

C

0.8

2.5

μA

I

KA(MIN)

Minimum cathode current for
regulation

V

KA

= V

REF

40

65

μA

I

KA(OFF)

Off-state current

V

KA

= 36V, V

REF

= 0V

0.05

0.5

μA

|Z

KA

|

Dynamic output impedance (Note 6) V

KA

= V

REF,

f = 0Hz

0.2

0.5

Ω

θ

JA

Thermal Resistance Junction to
Ambient

SOT23

380

o

C/W

SOT25

250

o

C/W

Notes: 5. Deviation of V

DEV

, and

ΔI

REF

are defined as the maximum variation of the values over the full temperature range.

The average temperature coefficient of the reference input voltage

αV

REF

is defined as:

Where:
T2 – T1 = full temperature change.

αV

REF

can be positive or negative depending on whether the slope is

positive or negative.

Notes: 6. The dynamic output impedance, R

Z

, is defined as:

When the device is programmed with two external resistors R1 and R2, the dynamic output
impedance of the overall circuit, is defined as:

=

T2 – T1

αV

REF

V

DEV

V

REF

@ 25ºC

X 10

6

ppm/ºC

=

T2 – T1

αV

REF

V

DEV

V

REF

@ 25ºC

X 10

6

ppm/ºC

Vmax

Vmin

T1

T2

V

DEV

= Vmax - Vmin

Temperature

Vmax

Vmin

T1

T2

V

DEV

= Vmax - Vmin

Temperature

=

Z

KA

ΔV

KA

ΔI

KA

=

Z

KA

ΔV

KA

ΔI

KA

=

Z’

ΔV

ΔI

Z

KA

1 +

R1

R2

≈

=

Z’

ΔV

ΔI

=

Z’

ΔV

ΔI

Z

KA

1 +

R1

R2

Z

KA

1 +

R1

R2

≈