MAX15012AASA+ Maxim Integrated Products, MAX15012AASA+ Datasheet - Page 9

MAX15012AASA+

Manufacturer Part Number

MAX15012AASA+

Description

IC DRIVER MOSFET 8-SOIC

Manufacturer

Maxim Integrated Products

Type

High Side/Low Sider

Datasheet

1.MAX15013CASA.pdf (18 pages)

Specifications of MAX15012AASA+

Configuration

Half Bridge

Input Type

Non-Inverting

Delay Time

30ns

Current - Peak

Number Of Configurations

Number Of Outputs

High Side Voltage - Max (bootstrap)

175V

Voltage - Supply

8 V ~ 12.6 V

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

8-SOIC (3.9mm Width)

Rise Time

65 ns

Fall Time

65 ns

Supply Voltage (min)

8 V

Supply Current

3 mA

Maximum Power Dissipation

470.6 mW

Maximum Operating Temperature

+ 125 C

Mounting Style

SMD/SMT

Bridge Type

Half Bridge

Maximum Turn-off Delay Time

30 ns

Maximum Turn-on Delay Time

30 ns

Minimum Operating Temperature

- 40 C

Number Of Drivers

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current page: 9 of 18
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The MAX15012/MAX15013 are 175V/2A high-speed,

half-bridge MOSFET drivers that operate from a supply

voltage of +8V to +12.6V. The drivers are intended to

drive a high-side switch without any isolation device

like an optocoupler or drive transformer. The high-side

driver is controlled by a TTL/CMOS logic signal refer-

enced to ground. The 2A source and sink drive capa-

bility is achieved by using low R

n-channel driver output stages. The BiCMOS process

allows extremely fast rise/fall times and low propaga-

tion delays. The typical propagation delay from the

logic-input signal to the driver output is 35ns with a

matched propagation delay of 2ns typical. Matching

these propagation delays is as important as the

absolute value of the delay itself. The high 175V input

voltage range allows plenty of margin above the 100V

transient specification per telecom standards.

The maximum operating supply voltage (V

reduced linearly from 12.6V to 10.5V when the maxi-

mum voltage (V

See the Typical Operating Characteristics.

Both the high- and low-side drivers feature undervolt-

age lockout (UVLO). The low-side driver’s UVLO

threshold is referenced to GND and pulls both driver

outputs low when V

driver has its own UVLO threshold (UVLO

enced to HS, and pulls DH low when BST falls below

6.4V with respect to HS.

During turn-on, once V

old, DL starts switching and follows the IN_L logic input.

At this time, the bootstrap capacitor is not charged and

the BST-to-HS voltage is below UVLO

nous buck and half-bridge converter topologies, the

bootstrap capacitor can charge up in one cycle and nor-

mal operation begins in a few microseconds after the

BST-to-HS voltage exceeds UVLO

forward topology, the BST capacitor takes some time (a

few hundred microseconds) to charge and increase its

voltage above UVLO

The typical hysteresis for both UVLO thresholds is 0.5V.

The bootstrap capacitor value should be selected care-

fully to avoid unintentional oscillations during turn-on

and turn-off at the DH output. Choose the capacitor

value about 20 times higher than the total gate capaci-

tance of the MOSFET. Use a low-ESR-type X7R dielec-

tric ceramic capacitor at BST (typically a 0.1µF ceramic

capacitor is adequate) and a parallel combination of

1µF and 0.1µF ceramic capacitors from V

The high-side MOSFET’s continuous on-time is limited

due to the charge loss from the high-side driver’s qui-

HS_MAX

_______________________________________________________________________________________

BST

Detailed Description

) increases from 125V to 175V.

falls below 6.8V. The high-side

rises above its UVLO thresh-

Undervoltage Lockout

BST

. In the two-switch

BST

DS_ON

. For synchro-

HIGH

) must be

, p- and

to GND.

), refer-

Half-Bridge MOSFET Drivers

LOW

escent current. The maximum on-time is dependent on

the size of C

The MAX15012/MAX15013 have low 2.5Ω R

channel and n-channel devices (totem pole) in the out-

put stage. This allows for a fast turn-on and turn-off of the

high gate-charge switching MOSFETs. The peak source

and sink current is typically 2A. Propagation delays from

the logic inputs to the driver outputs are matched to

within 8ns. The internal p- and n-channel MOSFETs have

a 1ns break-before-make logic to avoid any cross con-

duction between them. This internal break-before-make

logic eliminates shoot-through currents reducing the

operating supply current as well as the spikes at V

See the Minimum Input Pulse Width section to under-

stand the effects of propagation delays on DH and DL.

The DL voltage is approximately equal to V

to-HS voltage is approximately equal to V

diode drop, when they are in a high state and to zero

when in a low state. The driver R

rents and faster switching speeds.

An internal diode connects from V

in conjunction with a bootstrap capacitor externally con-

nected between BST and HS. The diode charges the

capacitor from V

and isolates V

side driver turns on (see the Typical Operating Circuit).

The internal bootstrap diode has a typical forward volt-

age drop of 0.9V and has a 10ns typical turn-off/turn-on

time. For lower voltage drops from V

an external Schottky diode between V

The MAX15012A/B/C/D are CMOS (V

drivers while the MAX15013A/B/C/D have TTL-compati-

ble logic inputs. The logic-input signals are independent

of V

supply while the logic inputs are provided from a 12V

CMOS logic. Also, the logic inputs are protected against

voltage spikes up to 14V, regardless of the V

The TTL and CMOS logic inputs have 250mV and 1.6V

hysteresis, respectively, to avoid double pulsing during

transition. The logic inputs are high-impedance pins and

should not be left floating. The low 2.5pF input capaci-

tance reduces loading and increases switching speed.

The noninverting inputs are pulled down to GND and the

inverting inputs are pulled up to V

1MΩ resistor. The PWM output from the controller must

assume a proper state while powering up the device.

With the logic inputs floating, the DH and DL outputs pull

low as V

175V/2A, High-Speed,

. Lower R

. For example, the IC can be powered by a 10V

rises up above the UVLO threshold.

BST

DS_ON

Driver Logic Inputs (IN_H, IN_L)

, I

BST

when HS is pulled high as the high-

when the DL low-side switch is on

means higher source and sink cur-

(40µA max), and UVLO

Internal Bootstrap Diode

DS_ON

to BST and is used

Output Driver

internally using a

is lower at higher

to BST, connect

and BST.

/2) logic-input

BST

DS_ON

, the DH-

minus a

voltage.

MAX15012AASA+ Maxim Integrated Products, MAX15012AASA+ Datasheet - Page 9

MAX15012AASA+

Specifications of MAX15012AASA+

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