Honeywell Digital Position Sensor ICs SS41K6 Installation Guide

Honeywell Digital Position Sensor ICs SS41K6 Installation Guide

GENERAL INFORMATION

CAUTION
ELECTROSTATIC DISCHARGE DAMAGE
Ensure proper ESD precautions are followed when handling this product.
Failure to comply with these instructions may result in product damage.

SOLDERING AND ASSEMBLY

CAUTION
IMPROPER SOLDERING

  • Ensure leads are adequately supported during any forming/shearing operation so that they are not stressed inside the plastic case.
  • Limit exposure to high temperatures. Failure to comply with these instructions may result in product damage

Wave solder at 250°C to 260°C [482°F to 500°F] for a maximum of three seconds. Burrs are allowed only if full lead length will pass through a 0,68 mm [0.027 in] dia. hole.

CLEANING

CAUTION
IMPROPER CLEANING
Do not use pressure wash. High-pressure stream could force contaminants into the package.
Failure to comply with these instructions may result in product damage.
Use agitated rinse to clean the sensor.

Performance Specifications (At VS = 4.5 V to 60 V, TA = -40ºC to 150ºC [-40ºF to 302ºF], IO = 15 mA, except where otherwise specified.)

Characteristic Symbol Condition Min. Typ. Max. Unit
 

Supply voltage

 VS 4.5 60.0  

V

-40ºC to 125ºC [-40ºF to 257ºF] 4.5 60.0
150ºC [302ºF] 4.5 24.0
Supply current IS 3.6 10.0 mA
Output voltage (ON) VSAT IO = 15 mA 0.215 0.600 V
Output leakage current IOH 10.0 mA
Output current limit1 IO(SCP) short circuit protection1 40 mA
Output switching time:  

ms

rise time tr TA = 25ºC [77ºF] 1.5
fall time tf TA = 25ºC [77ºF] 1.5
ESD (Human Body Model) VESD per JEDEC JS-001-2014 -16 16 kV
Operating temperature TA -40 [-40] 150 [302] ºC [ºF]
Junction temperature TJ -40 [-40] 165 [329] ºC [ºF]
Storage temperature TS -40 [-40] 150 [302] ºC [ºF]
Thermal resistance RqJA 233 ºC/W
Soldering time and temperature 3 s max. 250 [482] 260 [500] ºC [ºF]

NOTICE

These Hall-effect sensor ICs may have an initial output in either the ON or OFF state if powered up with an applied magnetic field in the differential zone (applied magnetic field >BRP and <BOP). Honeywell recommends allowing 10 µs after the supply voltage has reached 4.5 V for the output voltage to stabilize.

NOTICE

The magnetic field strength (Gauss) required to cause the switch to change state (operate and release) will be as specified in the magnetic characteristics (see Table 2). To test the switch against the specified limits, the switch must be placed in a uniform magnetic field.

Bipolar Hall-Effect Digital Position Sensor ICs

Magnetic Characteristics (At VS = 4.5 V to 60 V, TA = -40ºC to 150ºC [-40ºF to 302ºF], except where otherwise specified.)

Characteristic Symbol Condition Min. Typ. Max. Unit
Operate BOP

TA = 25ºC [75ºF]

25

25

 115

65

 Gauss
Release BRP

TA = 25ºC [75ºF]

 -115

-65

 -25

-25

Gauss
Differential BDIF 30 Gauss

Absolute Maximum Specifications

Characteristic Symbol Condition Min. Typ. Max. Unit
Supply voltage Vs -0.5 60.0 V
Output voltage VO -0.5 60.0 V
Output current IO N/A1 mA
Magnetic flux B no limit Gauss
Characteristic Symbol Condition Min. Typ. Max. Unit
Supply voltage Vs -0.5 60.0 V
Output voltage VO -0.5 60.0 V
Output current IO N/A1 mA
Magnetic flux B no limit Gauss

Output short circuit protection is enabled when the output load current exceeds the rated load current shown in Table 1

NOTICE
Absolute maximum ratings are the extreme limits the device will momentarily withstand without damage to the device. Electrical and mechanical characteristics are not guaranteed if the rated voltage and/or currents are exceeded, nor will the device necessarily operate at absolute maximum ratings.

Magnetic Characteristics vs Temperature