MIC5018YM4 TR Micrel Inc, MIC5018YM4 TR Datasheet - Page 6
MIC5018YM4 TR
Manufacturer Part Number
MIC5018YM4 TR
Description
IC DRIVER MOSFET HI SIDE SOT143
Manufacturer
Micrel Inc
Series
IttyBitty®r
Datasheet
1.MIC5018YM4_TR.pdf
(8 pages)
Specifications of MIC5018YM4 TR
Configuration
High-Side
Input Type
Non-Inverting
Delay Time
750µs
Number Of Configurations
1
Number Of Outputs
1
Voltage - Supply
2.7 V ~ 9 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
SOT-143, SOT-143B, TO-253AA
Number Of Drivers
1
Driver Configuration
Non-Inverting
Driver Type
High Side
Input Logic Level
TTL
Operating Supply Voltage (max)
9V
Operating Supply Voltage (min)
2.7V
Turn Off Delay Time
30us
Turn On Delay Time (max)
2.1ms
Operating Temp Range
-40C to 85C
Operating Temperature Classification
Industrial
Mounting
Surface Mount
Pin Count
3 +Tab
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Current - Peak
-
High Side Voltage - Max (bootstrap)
-
Lead Free Status / Rohs Status
Compliant
Other names
576-1238-2
Application Information
Supply Bypass
A capacitor from VS to GND is recommended to control
switching and supply transients. Load current and supply
lead length are some of the factors that affect capacitor
size requirements.
A 4.7µF or 10µF aluminum electrolytic or tantalum
capacitor is suitable for many applications.
The low ESR (equivalent series resistance) of tantalum
capacitors makes them especially effective, but also
makes them susceptible to uncontrolled inrush current
from low impedance voltage sources (such as NiCd
batteries
instantaneously applying voltage, capable of high peak
current, directly to or near tantalum capacitors without
additional current limiting. Normal power supply turn-on
(slow rise time) or printed circuit trace resistance is
usually adequate for normal product usage.
MOSFET Selection
The
enhancement type MOSFETs. The gate output (G) of
the MIC5018 provides a voltage, referenced to ground,
that is greater than the supply voltage. Refer to the
“Typical Characteristics: Gate Output Voltage vs. Supply
Voltage” graph.
The supply voltage and the MOSFET drain-to-source
voltage drop determine the gate-to-source voltage.
where:
The performance of the MOSFET is determined by the
gate-to-source voltage. Choose the type of MOSFET
according to the calculated gate-to-source voltage.
Micrel, Inc.
April 2006
(approx. 0V at low current, or when fully enhanced)
V
MIC5018
GS
= gate-to-source voltage (enhancement)
or
V
V
G
V
DS
V
= gate voltage (from graph)
automatic
GS
SUPPLY
= drain-to-source voltage
is
2
4
Figure 1. Voltages
= V
V S
C T L
MIC5018
designed
G
= supply voltage
– (V
GND
G
SUPPLY
test
1
3
V
V
to
G
LOAD
– V
V
equipment).
G S
G
V
S U P P L Y
DS
drive
D
S
)
V
D S
N-channel
Avoid
6
Standard MOSFET
Standard MOSFETs are fully enhanced with a gate-to-
source voltage of about 10V. Their absolute maximum
gate-to-source voltage is ±20V.
With a 5V supply, the MIC5018 produces a gate output
of approximately 15V. Figure 2 shows how the remaining
voltages conform. The actual drain-to-source voltage
drop across an IRFZ24 is less than 0.1V with a 1A load
and 10V enhancement. Higher current increases the
drain-to-source voltage drop, increasing the gate-to-
source voltage.
The MIC5018 has an internal zener diode that limits the
gate-to-ground voltage to approximately 16V.
Lower supply voltages, such as 3.3V, produce lower
gate output voltages which will not fully enhance
standard MOSFETs. This significantly reduces the
maximum current that can be switched. Always refer to
the MOSFET data sheet to predict the MOSFET’s
performance in specific applications.
Logic-Level MOSFET
Logic-level N-channel MOSFETs are fully enhanced with
a gate-to-source voltage of approximately 5V and
generally have an absolute maximum gate-to-source
voltage of ±10V.
Refer to Figure 3 for an example showing nominal
voltages. The maximum gate-to-source voltage rating of
a logic-level MOSFET can be exceeded if a higher
4.7µF
4.7µF
Logic
Logic
High
High
Figure 3. Using a Logic-Level MOSFET
Figure 2. Using a Standard MOSFET
Voltages are approximate
* International Rectifier
Voltages are approximate
* International Rectifier
standard MOSFET
logic-level MOSFET
2
4
2
4
V S
C T L
V S
C T L
MIC5018
MIC5018
GND
GND
G
G
1
1
3
3
15V
9V
3.3V
5V
5.7V
10V
+3.3V
+5V
IRFZ24*
IRLZ44*
To demonstrate
this circuit, try
5 , 5W or
47 , 1/4W
load resistors.
To demonstrate
this circuit, try a
2 , 20W
load resistor .
(408) 955-1690
M9999-042406
approx. 0V
approx. 0V
MIC5018
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