REDROCK⢠RR120 TMR DIGITAL SENSOR
REDROCK™ RR120 TMR DIGITAL SENSOR RedRock™ RR120 TMR Digital Sensor The RedRock 120 Series is an integrated digital magnetic sensor ideal for use in medical, industrial, automotive and consumer switching applications. Based on patented Tunneling Magnetoresistance (TMR) technology with CMOS process, the RR120 Series can function even in low magnetic fields with large air gaps. The RR120 Series provides high sensitivity with low power consumption in a small footprint package.
™
Features u High sensitivity u Stable temperature performance u Resistant to mechanical stress u Low power consumption u High frequency performance u Logic output for design flexibility u REACH Compliant u RoHS Compliant
IDEAL APPLICATIONS Door or lid closure detection Smart phones, tablets and laptops u Bare glass reed switch replacement u Motor controllers u Proximity detection u Open-close detection u Water, electric and gas meters u Fluid level detection u “Wake-Up” functionality u u
DIMENSIONS in Millimeters (Inches)
Top View
End View
2.9 (0.114) 1.4 (0.057)
1.2 (0.047)
0.1 (0.004)
3 0.4 (0.017) 1.6 (0.63)
0.6 (0.024)
2.8 (0.110)
Side View 1
2 0.4 (0.016)
1.90 (0.075)
VCC
1
2
1 3
VOUT
1.1 (0.043)
2
GND
Ordering Information Part Number RR120-A X 1 X-X 0 Package Model Number 0 - SOT-23 Magnetic Sensitivity (G) Special Feature A - Op = 30 Rel = 15 0 - N/A Temp Rating (ºC) 1 - Industrial (-40- +85) Sensitivity Pattern Power Rating 0 = Omnipolar 1 - Default Value 1 = Unipolar
rev. 0915016
4
COTO TECHNOLOGY | tel: (401) 943.2686 | cotorelay.com
REDROCK™ RR120 TMR DIGITAL SENSOR REDROCK™
RR120
Parameters OPERATING CHARACTERISTICS1
Units
Min
Typ
Max
Operate Sensitivity
G
20
30
40
Release Sensitivity
G
8
15
25
Hysteresis
%
50
Operate Time
nS
600
Release Time
nS
600
ELECTRICAL CHARACTERISTICS1 Supply Voltage
Vcc
3.0
3.3
Average Current Drain
nA
350
400
Output Voltage (High)2
Vouth
2.7 V
Output Voltage (Low)
Voutl
0.2 V
2
2.7
ABSOLUTE ENVIRONMENTAL RATINGS Operating Temperature: Industrial
ºC
-40
85
Storage Temperature
ºC
-55
150
Soldering Temperature (3 cycles, 1 min.)
ºC
260
Operating Magnetic Field
G
100
ESD Level (HBM)
V
4000
Notes: 1. All characteristics as measured at 25ºC 2. See "Output Behavior vs. Magnetic Field" below for more details.
OUTPUT BEHAVIOR VS. MAGNETIC FIELD
SENSOR POLARITY DIAGRAM
Output OFF
S
VOUT
Switch to Low
Switch to High
N Characteristic
Output ON BRP
Conditions Output
North Pole
B > BOP
Low
Null or Weak Magnetic Field
B < BRP
High
South Pole
B > BOP
High
3
BOP B+
BHYS
1
2
RR120 DIGITAL FUNCTION BLOCK DIAGRAM MLU SENSOR LOCATION DIAGRAM
VCC VDD
DUTY CYCLE CONTROL
DCC DCC
DCC
EN
PMU EN
3
IREF OSC VREF
MLU SENSOR
VB
DCC
A EN
HYSTERESIS CONTROL
VREF
OUTPUT LATCH
C VOUT
1
A
Nominal Dimensions 1.60
B
2.90
C
0.80
D
1.45
Symbols
D
IPTAT
2 B
GND
COTO TECHNOLOGY | tel: (401) 943.2686 | cotorelay.com
rev. 09152016
5
TMR TECHNICAL & APPLICATIONS INFORMATION TMR SENSOR & SWITCH PACKAGING Standard packaging is Tape & Reel containing 3,000 pieces. Below is a chart of Tape & Reel dimensions for standard TMR products. 4.0 ± 0.01 Ø1.5
+0.1 -0
2.0 ± 0.05
8.0 ± 0.2
1.75 ± 0.1 3.5 ± 0.05 2.75
4.0 ± 0.01
see Fig. B below
see Fig. A below
Ø1.1 ± 0.1
0.20 ± 0.05 Ao3.3 ± 0.1
2.55 ± 0.1
Bo3.2 ± 0.1
.3 R0
0.2
0.4
0.6
0.8
0.8
0.6
0.4
0.2
Ø178.0±0.05
5 4 3
2
1
00.75mm
Ø60.0±0.05
1.5
Ø60.0±0.05
Ø178.0±0.05
00.95mm
1
2
.3
.3
Ko1.47 ± 0.1 Fig. B
1.5
4
5º MAX.
R0
R0
0.6
Fig. A
3
R
1.1 ± 0.1 5º MAX.(2X)
5º MAX.(2X)
3
0.
5º MAX.(2X)
2.2±0.05 +1.5
10.6
9.0 -0
EIAJ +1.5
Ø13.5±0.05
9.0 -0
rev. 0915016
8
COTO TECHNOLOGY | tel: (401) 943.2686 | cotorelay.com
SUGGESTED SOLDER PAD LAYOUT
SUGGESTED REFLOW PROFILE
3X 0.030 60 SECONDS MAXIMUM
15-25 s Typical
Cool Down 2-4 ºC/s Temperature (ºC)
0.062
0.124
260 ºC Max (Lead-Free) 240-250 ºC Max Range (Leaded)
250
3X 0.047
200 150
Soak
100
Preheat at 2-3 ºC/s 50
0
50
50
150
200
250
Time (s)
0.037 0.075 (Units in mm)
Notes: 1. Fully compatible with standard no-lead solder profile, 260 ºC for 1 minute max (3 cycles max) 2. Profile shown as example. Users are advised to develop their own board-level profile 3. Temperature tolerance: +0 ºC, as measured at any point on the package or leads 4. MSL listed on main specification page compatible with J-STD-020 or equiv.
rev. 09152016
COTO TECHNOLOGY | tel: (401) 943.2686 | cotorelay.com
9
TMR TECHNICAL & APPLICATIONS INFORMATION GLOSSARY OF TERMS Hysteresis: Hysteresis refers to the difference between two points of interest for a particular device. For digital sensors and switches, it represents the difference between the operate sensitivity and the release sensitivity, expressed either as an absolute value (Bop – Brp) or the % difference (Bop – Brp)/Bop. For an analog sensor, the hysteresis is the difference between the “magnet approach curve” and the “magnet recede curve.” Magnet Approach Curve: The magnet approach curve is the characteristic change in resistance of an analog TMR sensor as an applied magnetic field approaches the sensor, typically plotted as a function of the magnetic field strength.
Operate Sensitivity: The operate sensitivity defines the upper limit of the strength of an applied magnetic field that a digital TMR sensor or switch must operate. Operate Time: The operate time is the difference, in time, between the application of a magnetic field and the output response of the device. In an analog sensor, the response is a change in output resistance. In a digital sensor, the response is a change in state of the electrical output. Release Sensitivity: The release sensitivity defines the lower limit of the strength of an applied magnetic field that a digital TMR sensor or switch must release.
Magnet Recede Curve: The magnet recede curve is the characteristic change in resistance of an analog TMR sensor as an applied Release Time: The release time is the difference, in time, between magnetic field recedes from the sensor, typically plotted as a function the removal of an applied magnetic field and the output response of of the magnetic field strength. the device. In an analog sensor, the response is a change in output resistance. In a digital sensor, the response is a change in state of the Magnetoresistance: Magnetoresistance is a phenomenon electrical output. wherein the electrical resistance of certain materials changes when exposed to an externally-applied magnetic field. Tunnel Magnetoresistance (TMR): Tunnel Magnetoresistance is the magnetoresistive effect that occurs in a magnetic tunnel Magnetic Transfer Curve: The magnetic transfer curve defines junction. the characteristic behavior of an analog TMR sensor by combining both the magnet approach curve and the magnet receive curve together. Magnetic Tunnel Junction: A magnetic tunnel junction is a thin film structure consisting of two magnetic layers separated by a thin insulator. Because the insulating layer is thin enough (typically a few nanometers), electrons can tunnel from one magnetic layer into the other.
rev. 0915016
10
COTO TECHNOLOGY | tel: (401) 943.2686 | cotorelay.com
MAGNETIC SENSITIVITY MAPS Magnetic sensitivity maps show the operate and release loci in threedimensional space when a magnet is presented to a magnetically operated switch or sensor. The absolute operate and release distances between the magnet and the sensor will vary depending on the sensitivity of the switch and the strength of the magnet. However, the shape and direction of the operate loci stay relatively constant except
for cases where the magnet is physically much larger than the sensor. These plots were generated using a 2mm^3 cubic shaped NdFeB N52 magnet with its North pole presented to the ground pin and a South pole presented to the opposite side. The X, Y, and Z axes have their origin (0,0,0) at the geometric center of the TMR device.
RR120/RR130 Magnetic Sensitivity Pattern, perspective view
RR120/RR130 Magnetic Sensitivity Pattern, YZ plane
• Operate Points Release Points
RR120/RR130 Magnetic Sensitivity Pattern, XY plane
RR120/RR130 Magnetic Sensitivity Pattern, XZ plane
rev. 09152016
COTO TECHNOLOGY | tel: (401) 943.2686 | cotorelay.com
11
™
Features u High sensitivity u Stable temperature performance u Resistant to mechanical stress u Low power consumption u High frequency performance u Logic output for design flexibility u REACH Compliant u RoHS Compliant
IDEAL APPLICATIONS Door or lid closure detection Smart phones, tablets and laptops u Bare glass reed switch replacement u Motor controllers u Proximity detection u Open-close detection u Water, electric and gas meters u Fluid level detection u “Wake-Up” functionality u u
DIMENSIONS in Millimeters (Inches)
Top View
End View
2.9 (0.114) 1.4 (0.057)
1.2 (0.047)
0.1 (0.004)
3 0.4 (0.017) 1.6 (0.63)
0.6 (0.024)
2.8 (0.110)
Side View 1
2 0.4 (0.016)
1.90 (0.075)
VCC
1
2
1 3
VOUT
1.1 (0.043)
2
GND
Ordering Information Part Number RR120-A X 1 X-X 0 Package Model Number 0 - SOT-23 Magnetic Sensitivity (G) Special Feature A - Op = 30 Rel = 15 0 - N/A Temp Rating (ºC) 1 - Industrial (-40- +85) Sensitivity Pattern Power Rating 0 = Omnipolar 1 - Default Value 1 = Unipolar
rev. 0915016
4
COTO TECHNOLOGY | tel: (401) 943.2686 | cotorelay.com
REDROCK™ RR120 TMR DIGITAL SENSOR REDROCK™
RR120
Parameters OPERATING CHARACTERISTICS1
Units
Min
Typ
Max
Operate Sensitivity
G
20
30
40
Release Sensitivity
G
8
15
25
Hysteresis
%
50
Operate Time
nS
600
Release Time
nS
600
ELECTRICAL CHARACTERISTICS1 Supply Voltage
Vcc
3.0
3.3
Average Current Drain
nA
350
400
Output Voltage (High)2
Vouth
2.7 V
Output Voltage (Low)
Voutl
0.2 V
2
2.7
ABSOLUTE ENVIRONMENTAL RATINGS Operating Temperature: Industrial
ºC
-40
85
Storage Temperature
ºC
-55
150
Soldering Temperature (3 cycles, 1 min.)
ºC
260
Operating Magnetic Field
G
100
ESD Level (HBM)
V
4000
Notes: 1. All characteristics as measured at 25ºC 2. See "Output Behavior vs. Magnetic Field" below for more details.
OUTPUT BEHAVIOR VS. MAGNETIC FIELD
SENSOR POLARITY DIAGRAM
Output OFF
S
VOUT
Switch to Low
Switch to High
N Characteristic
Output ON BRP
Conditions Output
North Pole
B > BOP
Low
Null or Weak Magnetic Field
B < BRP
High
South Pole
B > BOP
High
3
BOP B+
BHYS
1
2
RR120 DIGITAL FUNCTION BLOCK DIAGRAM MLU SENSOR LOCATION DIAGRAM
VCC VDD
DUTY CYCLE CONTROL
DCC DCC
DCC
EN
PMU EN
3
IREF OSC VREF
MLU SENSOR
VB
DCC
A EN
HYSTERESIS CONTROL
VREF
OUTPUT LATCH
C VOUT
1
A
Nominal Dimensions 1.60
B
2.90
C
0.80
D
1.45
Symbols
D
IPTAT
2 B
GND
COTO TECHNOLOGY | tel: (401) 943.2686 | cotorelay.com
rev. 09152016
5
TMR TECHNICAL & APPLICATIONS INFORMATION TMR SENSOR & SWITCH PACKAGING Standard packaging is Tape & Reel containing 3,000 pieces. Below is a chart of Tape & Reel dimensions for standard TMR products. 4.0 ± 0.01 Ø1.5
+0.1 -0
2.0 ± 0.05
8.0 ± 0.2
1.75 ± 0.1 3.5 ± 0.05 2.75
4.0 ± 0.01
see Fig. B below
see Fig. A below
Ø1.1 ± 0.1
0.20 ± 0.05 Ao3.3 ± 0.1
2.55 ± 0.1
Bo3.2 ± 0.1
.3 R0
0.2
0.4
0.6
0.8
0.8
0.6
0.4
0.2
Ø178.0±0.05
5 4 3
2
1
00.75mm
Ø60.0±0.05
1.5
Ø60.0±0.05
Ø178.0±0.05
00.95mm
1
2
.3
.3
Ko1.47 ± 0.1 Fig. B
1.5
4
5º MAX.
R0
R0
0.6
Fig. A
3
R
1.1 ± 0.1 5º MAX.(2X)
5º MAX.(2X)
3
0.
5º MAX.(2X)
2.2±0.05 +1.5
10.6
9.0 -0
EIAJ +1.5
Ø13.5±0.05
9.0 -0
rev. 0915016
8
COTO TECHNOLOGY | tel: (401) 943.2686 | cotorelay.com
SUGGESTED SOLDER PAD LAYOUT
SUGGESTED REFLOW PROFILE
3X 0.030 60 SECONDS MAXIMUM
15-25 s Typical
Cool Down 2-4 ºC/s Temperature (ºC)
0.062
0.124
260 ºC Max (Lead-Free) 240-250 ºC Max Range (Leaded)
250
3X 0.047
200 150
Soak
100
Preheat at 2-3 ºC/s 50
0
50
50
150
200
250
Time (s)
0.037 0.075 (Units in mm)
Notes: 1. Fully compatible with standard no-lead solder profile, 260 ºC for 1 minute max (3 cycles max) 2. Profile shown as example. Users are advised to develop their own board-level profile 3. Temperature tolerance: +0 ºC, as measured at any point on the package or leads 4. MSL listed on main specification page compatible with J-STD-020 or equiv.
rev. 09152016
COTO TECHNOLOGY | tel: (401) 943.2686 | cotorelay.com
9
TMR TECHNICAL & APPLICATIONS INFORMATION GLOSSARY OF TERMS Hysteresis: Hysteresis refers to the difference between two points of interest for a particular device. For digital sensors and switches, it represents the difference between the operate sensitivity and the release sensitivity, expressed either as an absolute value (Bop – Brp) or the % difference (Bop – Brp)/Bop. For an analog sensor, the hysteresis is the difference between the “magnet approach curve” and the “magnet recede curve.” Magnet Approach Curve: The magnet approach curve is the characteristic change in resistance of an analog TMR sensor as an applied magnetic field approaches the sensor, typically plotted as a function of the magnetic field strength.
Operate Sensitivity: The operate sensitivity defines the upper limit of the strength of an applied magnetic field that a digital TMR sensor or switch must operate. Operate Time: The operate time is the difference, in time, between the application of a magnetic field and the output response of the device. In an analog sensor, the response is a change in output resistance. In a digital sensor, the response is a change in state of the electrical output. Release Sensitivity: The release sensitivity defines the lower limit of the strength of an applied magnetic field that a digital TMR sensor or switch must release.
Magnet Recede Curve: The magnet recede curve is the characteristic change in resistance of an analog TMR sensor as an applied Release Time: The release time is the difference, in time, between magnetic field recedes from the sensor, typically plotted as a function the removal of an applied magnetic field and the output response of of the magnetic field strength. the device. In an analog sensor, the response is a change in output resistance. In a digital sensor, the response is a change in state of the Magnetoresistance: Magnetoresistance is a phenomenon electrical output. wherein the electrical resistance of certain materials changes when exposed to an externally-applied magnetic field. Tunnel Magnetoresistance (TMR): Tunnel Magnetoresistance is the magnetoresistive effect that occurs in a magnetic tunnel Magnetic Transfer Curve: The magnetic transfer curve defines junction. the characteristic behavior of an analog TMR sensor by combining both the magnet approach curve and the magnet receive curve together. Magnetic Tunnel Junction: A magnetic tunnel junction is a thin film structure consisting of two magnetic layers separated by a thin insulator. Because the insulating layer is thin enough (typically a few nanometers), electrons can tunnel from one magnetic layer into the other.
rev. 0915016
10
COTO TECHNOLOGY | tel: (401) 943.2686 | cotorelay.com
MAGNETIC SENSITIVITY MAPS Magnetic sensitivity maps show the operate and release loci in threedimensional space when a magnet is presented to a magnetically operated switch or sensor. The absolute operate and release distances between the magnet and the sensor will vary depending on the sensitivity of the switch and the strength of the magnet. However, the shape and direction of the operate loci stay relatively constant except
for cases where the magnet is physically much larger than the sensor. These plots were generated using a 2mm^3 cubic shaped NdFeB N52 magnet with its North pole presented to the ground pin and a South pole presented to the opposite side. The X, Y, and Z axes have their origin (0,0,0) at the geometric center of the TMR device.
RR120/RR130 Magnetic Sensitivity Pattern, perspective view
RR120/RR130 Magnetic Sensitivity Pattern, YZ plane
• Operate Points Release Points
RR120/RR130 Magnetic Sensitivity Pattern, XY plane
RR120/RR130 Magnetic Sensitivity Pattern, XZ plane
rev. 09152016
COTO TECHNOLOGY | tel: (401) 943.2686 | cotorelay.com
11
