A1220LUA-T Allegro Microsystems Inc, A1220LUA-T Datasheet - Page 12
A1220LUA-T
Manufacturer Part Number
A1220LUA-T
Description
IC HALL EFFECT LATCH 3V 3-SIP
Manufacturer
Allegro Microsystems Inc
Type
Bipolar Latchr
Datasheet
1.A1221LUA-T.pdf
(14 pages)
Specifications of A1220LUA-T
Sensing Range
40G Trip, -40G Release
Voltage - Supply
3 V ~ 24 V
Current - Supply
4mA
Current - Output (max)
25mA
Output Type
Digital, Open Drain
Features
Regulated Voltage
Operating Temperature
-40°C ~ 150°C
Package / Case
3-SIP
Termination Type
SIP
No. Of Pins
3
Release Point Max
-5G
Hall Effect Type
Latching
Operating Temperature Range
-40°C To +150°C
Supply Voltage Min
3V
Release Point Min
-40G
Magnetic Type
Latch
Operating Supply Voltage (min)
3V
Operating Supply Voltage (typ)
3.3/5/9/12/15/18V
Operating Supply Voltage (max)
24V
Output Current
25mA
Mag Sensor Operate Point (g)
40Gs
Mag Sensor Release Point (g)
-40Gs
Mag Sensor Hysteresis(g)
45Gs
Package Type
Ultra Mini SIP
Pin Count
3
Mounting
Through Hole
Operating Temp Range
-40C to 150C
Operating Temperature Classification
Automotive
Filter Terminals
SIP
Rohs Compliant
Yes
Bandwidth
800kHz
Leaded Process Compatible
Yes
Operate Point Max
40G
Operate Point Min
5G
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
A1220, A1221,
A1222, and A1223
Power Derating
The device must be operated below the maximum junction
temperature of the device, T
peak conditions, reliable operation may require derating supplied
power or improving the heat dissipation properties of the appli-
cation. This section presents a procedure for correlating factors
affecting operating T
Allegro MicroSystems website.)
The Package Thermal Resistance, R
marizing the ability of the application and the device to dissipate
heat from the junction (die), through all paths to the ambient air.
Its primary component is the Effective Thermal Conductivity, K,
of the printed circuit board, including adjacent devices and traces.
Radiation from the die through the device case, R
small component of R
motion are significant external factors, damped by overmolding.
The effect of varying power levels (Power Dissipation, P
be estimated. The following formulas represent the fundamental
relationships used to estimate T
For example, given common conditions such as: T
V
CC
T = P
T = P
= 12 V, I
T
P
D
J
= T
= V
A
D
CC
+ T = 25°C + 3°C = 28°C
×
CC
×
R
= 1.6 mA, and R
I
JA
CC
P
T
D
J
J
= 12 V
= 19 mW
. (Thermal data is also available on the
JA
= T
= V
. Ambient air temperature, T
A
D
IN
+ ΔT
×
J(max)
×
×
R
×
1.6 mA = 19 mW
J
I
JA
, at P
IN
. Under certain combinations of
JA
165 °C/W = 3°C
Chopper Stabilized Precision Hall Effect Latches
JA
= 165 °C/W, then:
D
.
, is a figure of merit sum-
(1)
(2)
(3)
JC
A
= 25°C,
, is relatively
A
, and air
D
), can
A worst-case estimate, P
able power level (V
at a selected R
Example: Reliability for V
minimum-K PCB.
Observe the worst-case ratings for the device, specifically:
R
I
Calculate the maximum allowable power level, P
invert equation 3:
This provides the allowable increase to T
power dissipation. Then, invert equation 2:
P
Finally, invert equation 1 with respect to voltage:
The result indicates that, at T
dissipate adequate amounts of heat at voltages ≤V
Compare V
able operation between V
R
and V
CC
JA
JA
V
T
(max) = 4 mA.
D
CC(est)
. If V
= 228°C/W, T
(max) = T
CC
max
(max) is reliable under these conditions.
= T
= P
CC(est)
CC(est)
J
D
(max) – T
JA
(max) ÷ I
max
≥ V
and T
to V
J
(max) = 165°C, V
CC(max)
÷ R
CC
CC
(max), then operation between V
A
JA
A
CC
D(max)
(max). If V
.
CC(est)
= 165 °C – 150 °C = 15 °C
CC
, I
(max) = 66 mW ÷ 4 mA = 16.4 V
= 15°C ÷ 228 °C/W = 66 mW
115 Northeast Cutoff
1.508.853.5000; www.allegromicro.com
Allegro MicroSystems, Inc.
Worcester, Massachusetts 01615-0036 U.S.A.
CC(max)
A
at T
, the application and device can
, represents the maximum allow-
and V
A
= 150°C, package LH, using a
), without exceeding T
CC(est)
CC
CC
(max) = 24 V, and
(max) requires enhanced
J
resulting from internal
≤ V
CC
(max), then reli-
D
CC(est)
(max). First,
.
CC(est)
J(max)
12
,
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