Zetex ZLNB101, ZLNB101N8 Datasheet

DUAL POLARISATION SWITCH TWIN LNB
MULTIPLEX CONTROLLER

ISSUE 1- JANUARY 2001

ZLNB101

DEVICE DESCRIPTION

The ZLNB101 dual polarisation switch
controller is one of a wide range of satellite
receiver LNB support circuits. It features two
completely independent channels, each
providing two logic outputs under the
control of a voltage sensitive input. It is
intended for use in Twin LNB designs,
replacing many dIscrete components to save
both manufacturing cost and PCB size whilst
improving reliability.

The two inputs of the ZLNB101 have a
nominal threshold of 14.5V. Their threshold
is temperature compensated to minimise
drift. Each features a low and stable input
current that enables transient protection to
be achieved with the addition of only a single
resistor per channel.

Normal and an inverted outputs are
provided for each input. All outputs can
source 15mA and sink 10mA making them
suitable to drive TTL and CMOS logic, pin
diodes and for IF-amp supply switching.

FEATURES

provides polarity detection and control

•

transient resistant

•

low input current

•

low supply current

•

temperature compensated input

•

threshold
standard and inverted output available

•

simultaneously wide supply operating
range

dual polarisation switch

•

eliminates external components

•

simplifies design

•

The ZLNB101 operates from a single supply
of between 5-12V. Its quiescent current is
typically only 4mA and this does not change
significantly with load or logic state. It is
available in either the standard SO8 or space
saving MSOP8 surface mount packages.
Device operating temperature is -40°C to
+85°C to suit a wide range of environmental
conditions.

APPLICATIONS

twin LNBs

•

IF switch box

•

LNB switch boxes

•

75

78

ZLNB101

ABSOLUTE MAXIMUM RATINGS

Supply Voltage -0.6V to 15V
Supply Current 50mA
V

and V

POL1

Input Voltage 25V Continuous

POL2

Power Dissipation (T

SO8 500mW
MSOP8 500mW

amb

= 25°C)

Operating Temperature -40 to 85°C
Storage Temperature -40 to 85°

ELECTRICAL CHARACTERISTICS TEST CONDITIONS (Unless otherwise stated):

= 25°C,VCC=5V,ID=10mA (R

T

amb

SYMBOL PARAMETER CONDITIONS

V
I

I
V

CC

POL

Supply Voltage 5 12 V

CC

Supply Current All inputs and outputs open circuit

= I

I

VERT1

= 14V

V

POL2

= I

I

HOR1

HOR2

= 15.0V

V

POL2

V

POL1

Current V
Threshold

TPOL

and V

Inputs

POL2

= V

POL1

(Note 1) (Note 4) 14.0 14.5 15.0

Voltage

T

Switching Speed 100

SPOL

Vert 1/2 Outputs

V

V

V

V

VHIGH

VHIGH

VHIGH

VLOW

Voltage High

Voltage High

Voltage High

Voltage Low

I

VERT1=IVERT2

= V

V

POL1

I

VERT1=IVERT2

= V

V

POL1

I

VERT1=IVERT2

= V

V

POL1

I

VERT1=IVERT2

= V

V

POL1

Hor 1/2 Outputs

V

V

V

V

VHIGH

VHIGH

VHIGH

VLOW

Voltage High

Voltage High

Voltage High

Voltage Low

I

HOR1=IHOR2

= V

V

POL1

I

HOR1=IHOR2

= V

V

POL1

I

HOR1=IHOR2

= V

V

POL1

I

HOR1=IHOR2

= V

V

POL1

=33kΩ)

CAL1

LIMITS

Min Typ Max

= 10mA, V

VERT2

= 10mA, V

= 25V (Note 4) 10 20 40

POL2

POL1

POL1

=

=

=10mA,

POL2

= 14V

V

-1.0

V

CC

=15mA,

POL2

= 14V

V

V

-1.2

CC

=10µA,

POL2

= 14V

V

V

CC

-0.2

=-10mA,

POL2

= 15.0V

0

0.25

=10mA,

POL2

= 15.0V

V

V

-1.0

CC

=15mA,

POL2

= 15.0V

V

V

-1.2

CC

=10µA,

POL2

= 15.0V

V

V

CC

-0.2

=-10mA,

POL2

= 14V

0

0.25

UNITS

10

30

30

mA

mA

mA

µA

µs

-0.8

V

CC

-0.9

V

CC

-0.1

V

CC

0.5

V

-0.8

CC

-0.9

V

CC

-0.1

V

CC

0.5

CC

CC

CC

CC

CC

CC

V

V

V

V

V

V

V

V

76

78