Datasheet HEF4053BU, HEF4053BT, HEF4053BPB, HEF4053BP, HEF4053BD Datasheet (Philips)

DATA SH EET

Product specification
File under Integrated Circuits, IC04

January 1995

INTEGRATED CIRCUITS

HEF4053B
MSI

Triple 2-channel analogue
multiplexer/demultiplexer

For a complete data sheet, please also download:

•The IC04 LOCMOS HE4000B Logic
Family Specifications HEF, HEC

•The IC04 LOCMOS HE4000B Logic
Package Outlines/Information HEF, HEC

January 1995 2

Philips Semiconductors Product specification

Triple 2-channel analogue
multiplexer/demultiplexer

HEF4053B

MSI

DESCRIPTION

The HEF4053B is a triple 2-channel analogue
multiplexer/demultiplexer with a common enable input (E).
Each multiplexer/demultiplexer has two independent
inputs/outputs (Y0and Y1), a common input/output (Z),
and select inputs (Sn). Each also contains two-bidirectional
analogue switches, each with one side connected to an
independent input/output (Y0and Y1) and the other side
connected to a common input/output (Z).

With

E LOW, one of the two switches is selected (low
impedance ON-state) by Sn. WithE HIGH, all switches are
in the high impedance OFF-state, independent of SAto SC.

VDDand VSSare the supply voltage connections for the
digital control inputs (SAto SC and E).
The VDDto VSSrange is 3 to 15 V. The analogue
inputs/outputs (Y0,Y1 and Z) can swing between VDDas a
positive limit and VEEas a negative limit. VDD−VEEmay not
exceed 15 V.

For operation as a digital multiplexer/demultiplexer, VEEis
connected to VSS(typically ground).

FAMILY DATA, I

DD

LIMITS category MSI

See Family Specifications

Fig.1 Functional diagram.

January 1995 3

Philips Semiconductors Product specification

Triple 2-channel analogue
multiplexer/demultiplexer

HEF4053B

MSI

HEF4053BP(N): 16-lead DIL; plastic

(SOT38-1)

HEF4053BD(F): 16-lead DIL; ceramic (cerdip)

(SOT74)

HEF4053BT(D): 16-lead SO; plastic

(SOT109-1)

( ): Package Designator North America

Fig.2 Pinning diagram.

PINNING

FUNCTION TABLE

Notes

1. H = HIGH state (the more positive voltage)

L = LOW state (the less positive voltage)
X = state is immaterial

Y

0A

to Y

0C

independent inputs/outputs

Y

1A

to Y

1C

independent inputs/outputs

S

A

to S

C

select inputs
E enable input (active LOW)
Z

A

to Z

C

common inputs/outputs

INPUTS CHANNEL

ON

ES

n

LL Y

0n−Zn

LH Y

1n−Zn

H X none

RATINGS

Limiting values in accordance with the Absolute Maximum System (IEC 134)

Note

1. To avoid drawing V

DD

current out of terminal Z, when switch current flows into terminals Y, the voltage drop across
the bidirectional switch must not exceed 0,4 V. If the switch current flows into terminal Z, no VDDcurrent will flow out
of terminals Y, in this case there is no limit for the voltage drop across the switch, but the voltages at Y and Z may
not exceed VDDor VEE.

Supply voltage (with reference to VDD)V

EE

−18 to + 0,5 V

Fig.3 Schematic diagram (one switch).

January 1995 4

Philips Semiconductors Product specification

Triple 2-channel analogue
multiplexer/demultiplexer

HEF4053B

MSI

Fig.4 Logic diagram.

January 1995 5

Philips Semiconductors Product specification

Triple 2-channel analogue
multiplexer/demultiplexer

HEF4053B

MSI

DC CHARACTERISTICS

T

amb

=25°C

V

DD−VEE

V

SYMBOL TYP. MAX. CONDITIONS

5 350 2500 Ω

V

is

= 0 to VDD−V

EE

see Fig.6

ON resistance 10 R

ON

80 245 Ω

15 60 175 Ω

5 115 340 Ω

V

is

=0

see Fig.6

ON resistance 10 R

ON

50 160 Ω

15 40 115 Ω

5 120 365 Ω

V

is=VDD−VEE

see Fig.6

ON resistance 10 R

ON

65 200 Ω

15 50 155 Ω

‘∆’ ON resistance 5 25 −Ω

V

is

= 0 to VDD−V

EE

see Fig.6

between any two 10 ∆R

ON

10 −Ω
channels 15 5 −Ω
OFF-state leakage 5 −−nA

E at V

DD

current, all 10 I

OZZ

−−nA
channels OFF 15 − 1000 nA
OFF-state leakage 5 −−nA

E at V

SS

current, any 10 I

OZY

−−nA
channel 15 − 200 nA

Fig.5 Operating area as a function of the supply voltages.

January 1995 6

Philips Semiconductors Product specification

Triple 2-channel analogue
multiplexer/demultiplexer

HEF4053B

MSI

Fig.6 Test set-up for measuring RON.

Fig.7 Typical RONas a function of input voltage.

Iis= 200 µA
VSS=VEE=0V

January 1995 7

Philips Semiconductors Product specification

Triple 2-channel analogue
multiplexer/demultiplexer

HEF4053B

MSI

AC CHARACTERISTICS

V

EE=VSS

= 0 V; T

amb

=25°C; input transition times ≤ 20 ns

AC CHARACTERISTICS

V

EE=VSS

= 0 V; T

amb

=25°C; input transition times ≤ 20 ns

V

DD

V

TYPICAL FORMULA FOR P (µW)

Dynamic power 5 2 500 f

i

+∑(foCL) × V

DD

2

where

dissipation per 10 11 500 f

i

+∑(foCL) × V

DD

2

fi= input freq. (MHz)

package (P) 15 29 000 f

i

+∑(foCL) × V

DD

2

fo= output freq. (MHz)
C

L

= load capacitance (pF)

∑(f

oCL

) = sum of outputs

V

DD

= supply voltage (V)

V

DD

V

SYMBOL TYP. MAX.

Propagation delays

Vis→ V

os

51020ns

note 1HIGH to LOW 10 t

PHL

510ns

15 5 10 ns

51530ns

note 1LOW to HIGH 10 t

PLH

510ns

15 5 10 ns

S

n

→ V

os

5 200 400 ns

note 2HIGH to LOW 10 t

PHL

85 170 ns

15 65 130 ns

5 275 555 ns

note 2LOW to HIGH 10 t

PLH

100 200 ns

15 65 130 ns

Output disable times

E → V

os

5 200 400 ns

note 3HIGH 10 t

PHZ

115 230 ns

15 110 220 ns

5 200 400 ns

note 3LOW 10 t

PLZ

120 245 ns

15 110 215 ns

Output enable times

E → V

os

5 260 525 ns

note 3HIGH 10 t

PZH

95 190 ns

15 65 130 ns

5 280 565 ns

note 3LOW 10 t

PZL

105 205 ns

15 70 140 ns

January 1995 8

Philips Semiconductors Product specification

Triple 2-channel analogue
multiplexer/demultiplexer

HEF4053B

MSI

Notes

Visis the input voltage at a Y or Z terminal, whichever is assigned as input.
Vosis the output voltage at a Y or Z terminal, whichever is assigned as output.

1. RL= 10 kΩ to VEE; CL= 50 pF to VEE; E=VSS; Vis=VDD(square-wave); see Fig.8.

2. RL= 10 kΩ; CL= 50 pF to VEE; E=VSS; Sn=VDD(square-wave); Vis=VDDand RLto VEEfor t

PLH

; Vis=VEEand

RLto VDDfor t

PHL

; see Fig.8.

3. RL= 10 kΩ; CL= 50 pF to VEE; E=VDD(square-wave);
Vis=VDDand RLto VEEfor t

PHZ

and t

PZH

;

Vis=VEEand RLto VDDfor t

PLZ

and t

PZL

; see Fig.8.

4. RL= 10 kΩ; CL= 15 pF; channel ON; Vis=1⁄2V

DD (p-p)

(sine-wave, symmetrical about1⁄2VDD);

fis= 1 kHz; see Fig.9.

5. RL=1 kΩ; Vis=1⁄2V

DD (p-p)

(sine-wave, symmetrical about1⁄2VDD);

6. R

L

= 10 kΩ to VEE; CL= 15 pF to VEE; E or Sn=VDD(square-wave); crosstalk is  Vos (peak

value); see Fig.8.

7. RL=1 kΩ; CL= 5 pF; channel OFF; Vis=1⁄2V

DD (p-p)

(sine-wave, symmetrical about1⁄2VDD);

8. R

L

=1 kΩ; CL= 5 pF; channel ON; Vis=1⁄2V

DD (p-p)

(sine-wave, symmetrical about1⁄2VDD);

Distortion, sine-wave 5 0,25 %

note 4response 10 0,04 %

15 0,04 %

Crosstalk between 5 − MHz

note 5any two channels 10 1 MHz

15 − MHz

Crosstalk; enable 5 − mV

note 6or address input 10 50 mV

to output 15 − mV

OFF-state 5 − MHz

note 7feed-through 10 1 MHz

15 − MHz

ON-state frequency 5 13 MHz

note 8response 10 40 MHz

15 70 MHz

V

DD

V

SYMBOL TYP. MAX.

20 log

V

os

V

is

-------- -

50 dB; see Fig. 10.–=

20 log

V

os

V

is

-------- -

50 dB; see Fig. 9.–=

20 log

V

os

V

is

-------- -

3 dB; see Fig. 9.–=

January 1995 9

Philips Semiconductors Product specification

Triple 2-channel analogue
multiplexer/demultiplexer

HEF4053B

MSI

Fig.8 Fig.9

APPLICATION INFORMATION

Some examples of applications for the HEF4053B are:

• Analogue multiplexing and demultiplexing.

• Digital multiplexing and demultiplexing.

• Signal gating.

NOTE

If break before make is needed, then it is necessary to use the enable input.

Fig.10

(a)

(b)