Allegro A2536EM, A2536EL, A2526EM, A2526EL Datasheet

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Data Sheet

27447.2*

2526

AND

2536

USB DUAL POWER CONTROL SWITCHES

A2526EM

1

2

3

45

6

7

8

EN

A

FLG

A

FLG

B

EN

B

OUT

A

IN

GND

OUT

B

Dwg. PP-070-2

GATE

CONTROL

GATE

CONTROL

The A2526EL/M and A2536EL/M are integrated high-side dual
power switches, optimized for self-powered and bus-powered Univer­sal Serial Bus (USB) applications. Few external components are
necessary to satisfy USB requirements. The A2526EL/EM ENABLE
inputs are active high; the A2536EL/EM are active low.

All devices are ideally suited for USB applications. Each switch
channel supplies up to 500 mA as required by USB peripheral devices.
In addition, the switch’s low on-resistance permits achieving the USB
voltage-drop requirements. Fault current is limited to typically
750 mA, satisfying the UL 25 VA safety requirements, and a flag
output is available to indicate a fault condition to the local USB
controller. Momentary voltage drops that may occur on the upstream
port when the switch is enabled in bus-powered applications is elimi­nated by a “soft start” feature.

Additional features include thermal shutdown to prevent catastrophic
switch failure from high-current loads, undervoltage lockout to ensure
that the device remains OFF unless there is a valid input voltage
present, and 3.3 V and 5 V logic-compatible enable inputs.

These switches are provided in 8-pin mini-DIP (suffix ‘M’) and
8-lead SOIC (suffix ‘L’) packages.

Features

■ 2.7 V to 5.8 V Input

■ Up to 500 mA Continuous Load Current per Port

■ 140 mΩ Maximum ON-Resistance

■ 1.25 A Maximum Short-Circuit Current Limit

■ Individual Open-Drain Fault Flag Outputs

■ 125 µA Typical ON-State Supply Current

■ <1 µA Typical OFF-State Supply Current

■ Outputs Can be Forced Higher Than Input (off-state)

■ Thermal Shutdown

■ 2.2 V Typical Undervoltage Lockout

■ 0.6 ms Turn On (soft-start) and Fast Turn Off

■ A2526 (active-high) Improved Replacement for MIC2526-1

■ A2536 (active-low) Improved Replacement for MIC2526-2

Applications

■ USB Hosts and Self-Powered Hubs

■ USB Bus-Powered Hubs

■ Hot Plug-In Power Supplies

■ Battery-Charger Circuits

Note that the A2526EM (DIP) and the
A2526EL (SOIC) are electrically identical and
share a common terminal number assignment.

ABSOLUTE MAXIMUM RATINGS

Supply Voltage, V

IN

..................... 6.0 V

Output Voltage, V

OUT

.................. 6.0 V

Output Current,

I

OUT

................. Internally Limited

ENABLE Voltage Range,

V

EN

......................... –0.3 V to 10 V

Fault Flag Voltage, V

FLG

.............. 8.0 V

Fault Flag Current, I

FLG

............. 50 mA

Package Power Dissipation,

P

D

................................. See Graph

Operating Temperature Range,

T

A

.......................... -40°C to +85°C

Junction Temperature, T

J

....... +150°C*

Storage Temperature Range,

T

S

........................... -65°C to 150°C

* Fault conditions that produce excessive
junction temperature will activate device
thermal shutdown circuitry. These conditions
can be tolerated but should be avoided.

115 Northeast Cutoff, Box 15036
Worcester, Massachusetts 01615-0036 (508) 853-5000

2526

AND

2536

USB
DUAL POWER CONTROL
SWITCHES

2

FUNCTIONAL BLOCK DIAGRAM

Copyright © 2000, Allegro MicroSystems, Inc.

GATE

CONTROL

GATE

CONTROL

1

2

3

45

6

7

8

EN

A

FLG

A

FLG

B

EN

B

OUT

A

IN

GND

OUT

B

Dwg. PP-070-3

A2536EM

Note that the A2536EM (DIP) and the
A2536EL (SOIC) are electrically identical and
share a common terminal number assignment.

50 75 100 125 150

2.5

0.5

0

ALLOWABLE PACKAGE POWER DISSIPATION IN WATTS

AMBIENT TEMPERATURE IN °C

2.0

1.5

1.0

25

Dwg. GP-009-2

SUFFIX 'L', R

θJA

= 108°C/W

SUFFIX 'M', R

θJA

= 60°C/W

Dwg. FP-049-1

OUT

B

FLG

B

EN

B

GATE

CONTROL

A2536 ONLY

GND

OUT

A

IN

FLG

A

EN

A

GATE

CONTROL

UVLO

TSD

CHARGE

PUMP

OSC

1.2 V
REF.

CHARGE

PUMP

A2536 ONLY

CURRENT

LIMIT

CURRENT

LIMIT

2526

AND

2536

USB

DUAL POWER CONTROL

SWITCHES

www.allegromicro.com

3

Electrical Characteristics at T

A

= 25°C, VIN = 5 V, each output tested separately (unless otherwise noted).

Limits

Parameter Test Conditions Min Typ Max Units

Operating Voltage Range V

IN

2.7 – 5.8 V

Switch Resistance VIN = 5 V, I

OUT

= 500 mA – 100 140 mΩ

VIN = 3.3 V, IOUT = 500 mA – 100 140 mΩ

Output Leakage Current Each output (output disabled), VIN = 5 V, V

OUT

= 0 – <1.0 10 µA

Maximum Load Current Each output 500 – – mA

Short-Circuit Current Limit Each output (enabled into load), V

OUT

= 4 V 0.5 0.75 1.25 A

Current-Limit Threshold Ramped load applied to enabled output, V

OUT

≤ 4 V – 0.9 – A

ENABLE Input Threshold Low-to-high transition – 2.1 2.4 V

High-to-low transition 0.8 1.9 – V

ENABLE Input Hysteresis – 0.2 – V

ENABLE Input Current VEN = 0 V to 5.5 V – ±0.01 ±1.0 µA

ENABLE Input Cap. – 1.0 – pF

Output Turn-On Delay RL = 10 Ω, CL = 1 µF, 50% V

ENABLE

to 10% V

OUT

–0.5– ms

Output Turn-On Rise Time RL = 10 Ω, CL = 1 µF, 10% V

OUT

to 90% V

OUT

–0.6– ms

Output Turn-Off Delay RL = 10 Ω, CL = 1 µF, 50% V

ENABLE

to 90% V

OUT

–10– µs

Output Turn-Off Fall Time RL = 10 Ω, CL = 1 µF, 90% V

OUT

to 10% V

OUT

–25– µs

Error Flag Output VIN = 5 V, IL = 10 mA – 8.0 – Ω
Resistance

VIN = 3.3 V, IL = 10 mA – 10 – Ω

Error Flag Off Current V

FLG

= 5 V – 0.01 – µA

Supply Current Both switches disabled (see note), OUT = open – 0.2 5.0 µA

Both switches enabled (see note), OUT = open – 125 160 µA

UVLO Threshold Increasing V

IN

–2.35– V

Decreasing V

IN

–2.2– V

Over-Temperature Increasing T

J

– 165 – °C

Shutdown Threshold

Decreasing T

J

– 155 – °C

Note — Disabled is ≤ 0.8 V and enabled is ≥ 2.4 V (active high) for the A2526EL/EM. Disabled is ≥ 0.8VIN and enabled is ≤ 0.8 V

(active low) for the A2536EL/EM.

115 Northeast Cutoff, Box 15036
Worcester, Massachusetts 01615-0036 (508) 853-5000

2526

AND

2536

USB
DUAL POWER CONTROL
SWITCHES

4

FUNCTIONAL DESCRIPTION

Power switch

The power switch is an N-channel MOSFET with a maximum
on-state resistance of 140 mΩ (VIN = 5 V). Configured as a
high-side switch, the power switch prevents current flow in
either direction if disabled. The drain body diode is discon­nected from the source when the switch is OFF allowing the
output voltage to exceed the input voltage without causing
current conduction. The power switch supplies a minimum of
500 mA per switch.

Charge pump

An internal charge pump supplies power to the driver circuit
and provides the necessary voltage to pull the gate of the
MOSFET above the source. The charge pump operates from
input voltages as low as 2.7 V. The charge pump is limited to

2.5 µA to establish a controlled turn on time of typically 1 ms.

Driver

The driver controls the gate voltage of the power switch. To
limit large current surges and reduce the associated electromag­netic interference (EMI) produced, the driver incorporates
circuitry that controls the rise times and fall times of the output
voltage. The rise time is typically 1 ms.

ENABLE (EN or EN)

The logic enable disables the power switch and the bias for the
charge pump, driver, and other circuitry to reduce the supply
current to less than 5 µA maximum when a logic high is present
on EN (A2526) or a logic low is present (A2536). The proper
logic level restores bias to the drive and control circuits and
turns the power ON. The enable input is a compatible with both
TTL and CMOS logic levels.

Fault Flag (FLG)

This open drain output is asserted (active low) when an
overcurrent or over temperature condition is encountered. The
output will remain asserted until the overcurrent or over
temperature condition is removed.

Current sense

A sense FET monitors the current supplied to the load. The
sense FET measures current more efficiently than conventional
resistance methods. When an overload or short circuit is
encountered, the current-sense circuitry sends a control signal to
the driver. The driver in turn reduces the gate voltage and
drives the power FET into its saturation region, which switches
the output into a constant-current mode and holds the current
constant while varying the voltage on the load.

Thermal sense

An internal thermal-sense circuit shuts off the power switch
when the junction temperature rises to approximately 165°C.
Hysteresis is built into the thermal sense circuit. After the
device has cooled approximately 10°C, the switch turns back
ON. The switch continues to cycle off and on until the fault is
removed.

Undervoltage lockout

A voltage-sense circuit monitors the input voltage. When the
input voltage is approximately 2 V, a control signal turns OFF
the power switch.