TI1 LM34904ITM/NOPB 500ma current limited power switch Datasheet

LM34904
500mA Current Limited Power Switch
General Description
Features
The LM34904 is a 0.5A PFET switch used to control the input
voltage of electronic devices. It is easily integrated into system
designs that have a 2.8V to 5.3V voltage rail. Besides the
0.4Ω PFET switch, the LM34904 can be enabled or disabled
by a logic signal. The IC monitors the presence of a downstream electronic device via a dedicated pin to decide whether
to turn on the PFET switch. A power good signal generated
by the IC can be used by system control to determine the status of the switch. The LM34904 also provides over-current
and over-temperature protection. The IC comes in a tiny 6bump thin micro SMD package.
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Input voltage of 2.8V to 5.3V
0.5A maximum switch current
0.4Ω typical total on-resistance
Load detection
Enable/disable
Switch on indicator
Peak current limit
Thermal shutdown
6-bump thin micro SMD package
Applications
● Handsets, tablets, notebooks
● Portable devices
Typical Application Circuit
30194201
PRODUCTION DATA information is current as of
publication date. Products conform to specifications per
the terms of the Texas Instruments standard warranty.
Production processing does not necessarily include
testing of all parameters.
301942 SNVS803D
Copyright © 1999-2012, Texas Instruments Incorporated
LM34904
Connection Diagram
30194202
Top View
6-Bump Thin Micro SMD Package
See NS Package Number TMD06AAA
Ordering Information
Order Number
Supplied As
LM34904ITM/NOPB
250 Units on Tape and Reel
LM34904ITMX/NOPB
3000 Units on Tape and Reel
Pin Descriptions
Name
Pin Number
Function
VCC
A1
Power input of the PFET switch. It also provides power to the entire IC. Connect
to the voltage rail that the accessory device is expected to work off.
GND
B1
Common Ground (device substrate).
POK
C1
Open-drain PFET status indicator. When the PFET is off, this pin floats. When
PFET is on, it is grounded.
ACC_DET
C2
Pull this pin low to tell the IC that the downstream accessory device is plugged
in.
ENABLE
B2
When this pin is low, the PFET will be turned off and POK will be open-drained.
Current limit circuitry will also be disabled. The IC will be in a low-power state.
This pin should be held low until VCC is established to ensure proper initial state
of internal logic. When ENABLE is high, the PFET switch will be allowed to turn
on.
ACC_PWR
A2
Power output terminal of the PFET switch. Connect to input rail of accessory
device.
Truth Table
Input
Output
ACC_DET
Current Limit
Detected
TJ Limit
Exceeded
2.8V < VCC < 5.3V
PFET Switch
Status
POK
0
x
No
No
Yes
Open
Open Drain
x
1
No
No
Yes
Open
Open Drain
0 to 1
0
No
No
Yes
On
Grounded
0 to 1
0
Yes
No
Yes
Current Limited
Grounded
x
x
x
Yes
2.2V < VCC < 5.3V
Open
Open Drain
0
x
x
No
2.2V < VCC < 2.8V
Open
Open Drain
ENABLE
Note: "x" stands for "don't care".
2
Copyright © 1999-2012, Texas Instruments Incorporated
LM34904
Absolute Maximum Ratings (Note 1)
If Military/Aerospace specified devices are required, please contact the Texas Instruments Sales Office/ Distributors for
availability and specifications.
VCC
ENABLE, POK, ACC_DET,
ACC_PWR (Note 2)
Junction Temperature (TJ)
Storage Temperature Range
ESD Susceptibility
Human Body Model (Note 3)
-0.3V to 6V
-0.3V to 6V
+150°C
−65°C to +150°C
2kV
Operating Ratings
VCC Voltage (Note 4)
Junction Temperature (TJ)
LM34904
2.8V to 5.3V
-40°C to +85°C
Electrical Characteristics
Unless otherwise stated, the following conditions apply: VCC = 3V. Limits in standard type are for TJ = 25°C only; limits in boldface type apply over the operating juction temperature (TJ) range. Minimum and maximum limits are guaranteed through test,
design, or statistical correlation. Typical values represent the most likely parametric norm at TJ = 25°C and are provided for reference
purposes only.
Symbol
Parameter
Conditions
VIL
Input Low Voltage,
ACC_DET, ENABLE
VIH
Input High Voltage,
ACC_DET, ENABLE
VIHS
Input Hysteresis,
ACC_DET, ENABLE
ILK
Input Current, ACC_DET,
ENABLE
ACC_DET, ENABLE between 0V and
VCC
ISD
VCC Current in Shutdown
Mode
VENABLE = 0V
IQ
VCC Quiescent Current
RON
Total On Resistance
Between VCC and
ACC_PWR Pins
ILK_ACC
ACC_PWR Leakage
Current When PFET is Off
ILIMIT
PFET Switch Current Limit
VPOK
POK Current Sink Capability POK asserted. 1mA sink current
IPOK
POK Leakage Current
T1
ACC_DET Response Time
T2
ENABLE Response Time
T3
Minimum ENABLE Cycle
Time (Note 5)
Min
Typ
Max
Units
0.45
V
V
1.35
55
VVCC = 5.3V
VENABLE = 1.8V
VVCC = 5.3V, IACC_PWR = 0A
VVCC = 2.8V to 5.3V
IACC_PWR = 0.5A
mV
1
µA
0.005
1
µA
47
100
µA
0.4
0.6
Ω
1
µA
0.76
A
0.4
V
1
µA
VACC_PWR = 0V to VCC
VVCC = 5.3V
VENABLE = 0V
VVCC = 2.8V to 5.3V
VACC_PWR = 0V
0.50
0.59
POK de-asserted
VPOK = 3.3V
ACC_DET rising to either PFET or POK
FET turn-off
107
ns
ENABLE rising to either PFET or POK
FET turn-on
10
µs
ACC_DET tied to ground. ENABLE logic
high = 1.8V. VCC = 2.8V to 5.3V.
300
ns
Copyright © 1999-2012, Texas Instruments Incorporated
3
LM34904
Thermal Characteristics
Symbol
Description
Conditions
Typical Value
Unit
104
°C/W
θJA1
Junction-to-Ambient
Thermal Resistance
Mount device on a standard 4-layer 4" x 3" JEDEC board. Apply known
amount of power to the package. Measure junction temperature and
surrounding air temperature. No air flow. Refer to JESD51-7 for more
information.
θJA2
Junction-to-Ambient
Thermal Resistance
Mount device on a 2-layer 2.19" x 2.9" board. Copper thickness is 1 oz
per layer. No air flow. Power dissipation is 0.5W.
136
°C/W
TSD
Thermal Shutdown
Threshold
Raise TJ from below 120°C until POK is de-asserted. No load is
connected at ACC_PWR.
135
°C
Note 1: Absolute Maximum Ratings are limits beyond which damage to the device may occur. Operating Ratings are conditions under which operation of the
device is guaranteed. Operating Ratings do not imply guaranteed performance limits. For guaranteed performance limits and associated test conditions, see the
Electrical Characteristics table.
Note 2: The voltages on these pins should never exceed VCC+0.3V.
Note 3: The human body model is a 100 pF capacitor discharged through a 1.5 kΩ resistor into each pin. Test method is per JESD-22-A114.
Note 4: For VCC between 2.2V and 2.8V, if ENABLE is a logic low, the LM34904 will not turn on the PFET switch.
Note 5: If ENABLE toggles low from a high state, it needs to stay low for at least T3 long before toggling back to high. Otherwise the internal flip-flop may not be
set and the PFET switch may not turn on.
4
Copyright © 1999-2012, Texas Instruments Incorporated
LM34904
Typical Performance Characteristics
Total ON Resistance vs Temperature
Unless indicated otherwise, VCC = 3.0V and TJ = 25°C.
Total ON Resistance vs Switch Current
500
450
RON (mΩ)
RON (mΩ)
450
400
350
400
350
300
250
300
-40
-20
0
20
40
60
TEMPERATURE (°C)
80
0
100
200
300
400
IACC_PWR (mA)
500
30194212
30194214
Current Limit vs Temperature
450
650
400
625
ILIMIT (mA)
RON (mΩ)
Total ON Resistance vs VCC
350
600
300
575
250
550
2.5
3.0
3.5
4.0
4.5
VCC (V)
5.0
5.5
-40
-20
0
20
40
60
TEMPERATURE (°C)
80
30194211
Input Logic High Threshold vs Temperature
30194213
Input Logic Low Threshold vs Temperature
1.1
1.1
VCC = 5.3V
1.0
1.0
0.8
VCC = 2.8V
0.7
0.8
0.7
0.6
VCC = 2.8V
0.6
0.5
-20
VCC = 5.3V
0.9
VIL (V)
0.9
0.5
0
20
40
60
80
-20
30194216
Copyright © 1999-2012, Texas Instruments Incorporated
0
20
40
60
TEMPERATURE (°C)
80
30194215
5
LM34904
Block Diagram
30194203
Application Hints
To turn on the PFET switch, both the ENABLE and the ACC_DET pins need to be asserted. In addition, ACC_DET needs to be
asserted no later than the rising edge of the ENABLE signal. De-assertion of either the ENABLE or the ACC_DET will result in
turned-off PFET switch and de-asserted POK signal.
To prevent a glitch in the otherwise asserted ACC_DET from keeping the FETs turned off, it is a good practice to cycle the ENABLE
following every falling edge in the ACC_DET signal. When cycling the ENABLE, make sure it stays low for at least T3 long before
toggling back high. If ENABLE logic high level is not 1.8V, make sure ENABLE stays low for at least 1µs.
When laying out the PCB, try to keep the ENABLE and ACC_DET traces as short as possible and away from noisy traces.
6
Copyright © 1999-2012, Texas Instruments Incorporated
LM34904
Physical Dimensions inches (millimeters) unless otherwise noted
TMD06AAA Package
6-Bump Thin Micro SMD Package
NS Package Number TMD06AAA
X1 = 0.815 ±0.03mm
X2 = 1.215 ±0.03mm
X3 = 0.600 ±0.075mm
Copyright © 1999-2012, Texas Instruments Incorporated
7
Notes
Copyright © 1999-2012, Texas Instruments
Incorporated
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