HT507 Datasheet HT506, HT506DC, HT507 | P1-P3

High Temperature Analog Multiplexers

16-Channel Single-Ended / 8-Channel Differential

HT506 / HT507

The High Temperature HT506/HT507 monolithic multiplexers consist of sixteen analog switches, 4-bit decode for channel

selection, reference for logic switching thresholds, and enable pin for device deactivation where applications require.

These multiplexers are fabricated with Honeywell’s dielectrically isolated latch-up free high temperature (HTMOS™) linear

process. Performance is specified over the full -55 to +225ºC temperature range. Typically, parts will operate up to

+300ºC for a year, with derated performance. All parts are burned in at 250ºC. The input buffers are designed to operate

from either TTL or CMOS levels while providing a break-before-make action. The HT506 switches one of the sixteen

single-ended inputs to a common output, while the HT507 switches one of the eight differential inputs to a differential

output. These parts are available in standard pinout 28-pin DIP Ceramic Packages.

Applications

 Down-Hole Oil, Gas, and Geothermal Well

 Avionics

 Turbine Engine Control

 Industrial Process Control

 Electric Power Conversion

 Heavy Duty Internal Combustion Engine

FEATURES AND BENEFITS



Specified over -55 to +225 C



Designed to continuously operate for at

least 5 years at 225 C



16:1 Single-Ended or 8:1 Differential

Configuration



Enable and address inputs compatible with TTL

and/or 5V CMOS logic



No latch-up



10V analog input/output range (±5V or 0 to 10V)



On resistance 400Ω at 225ºC



Split and single supply capability



Output leakage less than 2.5µA at 225ºC



Break-Before-Make Switching

HT506/HT507

2 www.honeywell.com

PACKAGE PINOUTS

ELECTRICAL CHARACTERISTICS (Split Supply)

Temperature range -55 to +225 C, typical @ +25 C, V+ = +5V, V- = -5V, GND=0V, V

IL

=0.8, V

IH

= 2.4V, unless otherwise specified

(1) Typical operating conditions: V+ = 5V, V- = -5V, TA= 25 C.

(2) Worst case operating conditions: V+ = +5V ±10%, V- = -5V ±10%, TA = -55 to 125 C.

Symbol

Parameters

Test Conditions

Typical

(1)

Worst Case

(2)

Units

MIN

MAX

Analog Switch

V

ANALOG

Analog Signal Range

-5

5

V

r

DS(ON)

Drain-Source On-Resistance

V

D

±5V, I

S

= -10mA Sequence

Each Switch On

100

400

Ω

∆r

DS(ON)

r

DS(ON)

Matching between Channels

V

D

= ±5V

2

%

I

S(OFF)

Source Off Leakage Current

V

EN

= 0V

0.01

200

nA

I

D(OFF)

Drain Off Leakage Current

V

D

= ±5V, V

EN

= 0V, V

S

= ±5V

0.04

-2500

2500

nA

I

D(ON)

Drain On Leakage Current

Sequence Each Switch On

0.04

-2500

2500

nA

Digital Control

V

IH

Logic High Input Voltage

2.4

V

IL

Logic Low Input Voltage

0.8

V

I

IH

Logic High Input Current

V

A

= 2.4V, 10V

-1

1

µA

I

IL

Logic Low Input Current

V

EN

= 0V, 2.4V, V

A

=0V

-1

1

µA

C

IN

Logic Input Capacitance

f=1MHz

7

pF

Dynamic Characteristics

t

ON

Address/Enable Turn-On Time

trise/tfall<50ns

100

400

ns

t

OFF

Address/Enable Turn-Off Time

trise/tfall<50ns

30

200

ns

Q

Charge Injection

C

L

=1nF, V

S

=0V, R

S

=0Ω

TBD

pC

O

IS

Off Isolation

V

EN

=0V, R

L

=1kΩ, f=100kHZ

TBD

dB

Power Supplies

I+

Positive Supply Current

V

EN

= V

A

= 0V or 5V

50

250

µA

I-

Negative Supply Current

-0.01

-20

µA

HT506/HT507

www.honeywell.com 3

ELECTRICAL CHARACTERISTICS (Single Supply)

Temperature range -55 to +225 C, typical @ +25 C, V+ = +10V, GND=V- = 0V, V

IL

=0.8, V

IH

= 2.4V, unless otherwise specified

(1) Typical operating conditions: V+ = 10V, V- = GND =0V, TA= 25 C.

(2) Worst case operating conditions: V+ = +10V ±10%, V- = GND =0V, TA = -55 to 125 C.

TRUTH TABLE – HT506 TRUTH TABLE – HT507

A3

A2

A1

A0

EN

On Switch

A2

A1

A0

EN

On Switch

X

0

None

X

0

None

0

1

0

1

0

1

2

0

1

2

0

1

0

1

3

0

1

0

1

3

0

1

4

0

1

4

0

1

0

1

5

1

0

1

5

0

1

0

1

6

1

0

1

6

0

1

0

1

7

1

0

1

7

0

1

8

1

8

1

0

1

9

1

0

1

10

1

0

1

0

1

11

1

0

1

12

1

0

1

13

1

0

1

14

1

0

1

15

1

16

Symbol

Parameters

Test Conditions

Typical

(1)

Worst Case

(2)

Units

MIN

MAX

Analog Switch

V

ANALOG

Analog Signal Range

11

V

r

DS(ON)

Drain-Source On-Resistance

V

D

= 3V, 10V, I

S

= 1mA

Sequence Each Switch On

80

400

Ω

∆r

DS(ON)

r

DS(ON)

Matching between Channels

2

%

I

S(OFF)

Source Off Leakage Current

V

EN

= 0V

0.01

200

nA

I

D(OFF)

Drain Off Leakage Current

V

S

=0.5V or 10V

0.04

-2500

2500

nA

I

D(ON)

Drain On Leakage Current

V

S

= V

D

= +10V

Sequence Each Switch On

0.04

-2500

2500

nA

Digital Control

V

IH

Logic High Input Voltage

2.4

V

IL

Logic Low Input Voltage

0.8

V

I

IH

Logic High Input Current

V

A

= 2.4V, 10V

-1

1

µA

I

IL

Logic Low Input Current

V

EN

= 0V, 2.4V, V

A

=0V

-1

1

µA

C

IN

Logic Input Capacitance

f=1MHz

7

pF

Dynamic Characteristics

t

ON(EN)

Address/Enable Turn-On Time

trise/tfall<50ns

100

400

ns

t

OFF(EN)

Address/Enable Turn-Off Time

30

200

Q

Charge Injection

C

L

=1nF, V

S

=6, R

S

=0

TBD

pC

Power Supplies

I+

Positive Supply Current

V

EN

= 0V or 5V, V

A

= 0V or 5V

50

250

µA

I-

Negative Supply Current

-0.01

-20

µA

Logic “0” = VAL ≤ 0.8V

Logic “1” = VAH ≥ 2.4V

X =Irrelevent

HT507

HT507

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