MAX6745XKVD3+T Maxim Integrated, MAX6745XKVD3+T Datasheet - Page 16

MAX6745XKVD3+T

Manufacturer Part Number

MAX6745XKVD3+T

Description

Supervisory Circuits MCU Supervisor

Manufacturer

Maxim Integrated

Series

MAX6736, MAX6737, MAX6738, MAX6739, MAX6740, MAX6741, MAX6742, MAX6743, MAX6744, MAX6745r

Datasheet

1.MAXQ613E-0000.pdf (28 pages)

Specifications of MAX6745XKVD3+T

Rohs

yes

Number Of Voltages Monitored

Monitored Voltage

1.8 V to 5 V, 0.9 V to 3.3 V

Undervoltage Threshold

1.53 V, 0.765 V

Overvoltage Threshold

1.62 V, 0.81 V

Output Type

Active Low, Push-Pull

Manual Reset

Not Resettable

Watchdog

No Watchdog

Battery Backup Switching

No Backup

Power-up Reset Delay (typ)

225 ms

Supply Voltage - Max

5.5 V

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

Package / Case

SC-70

Chip Enable Signals

Maximum Power Dissipation

247 mW

Minimum Operating Temperature

- 40 C

Power Fail Detection

Yes

Supply Current (typ)

5 uA, 10 uA

Supply Voltage - Min

1 V

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MAXQ613

16-Bit Microcontroller with Infrared Module

timer value reloads its value. When the IRV reaches 0000h

value, on the next carrier clock, it does the following:

1) Reloads IRV with IRMT.

2) Samples IRCA, IRDATA, and IRTXPOL.

3) Generates IRTX accordingly.

4) Sets IRIF to 1.

5) Generates an interrupt to the CPU if enabled (IRIE = 1).

To terminate the current transmission, the user can

switch to receive mode (IRMODE = 0) or clear IREN to 0.

The normal transmit mode modulates the carrier based

upon the IRDATA bit. However, the user has the option

to input the modulator (envelope) on an external pin if

desired. If the IRENV[1:0] bits are configured to 01b or

10b, the modulator/envelope is output to the IRTXM pin.

The IRDATA bit is output directly to the IRTXM pin (if

IRTXPOL = 0) on each IRV down-count interval bound-

ary just as if it were being used to internally modulate

the carrier frequency. If IRTXPOL = 1, the inverse of

the IRDATA bit is output to the IRTXM pin on the IRV

interval down-count boundaries. See Figure 4. When

the envelope mode is enabled, it is possible to output

either the modulated (IRENV[1:0] = 01b) or unmodulated

(INENV[1:0] = 10b) carrier to the IRTX pin.

Figure 4. External IRTXM (Modulator) Output

IR Transmit—Independent External Carrier

Carrier Modulation Time = IRMT + 1 carrier cycles

IR INTERRUPT

IRV INTERVAL

IRTXPOL = 1

IRTXPOL = 0

IRDATA

IRTXM

IRMT

and Modulator Outputs

IRMT

When configured in receive mode (IRMODE = 0), the

IR hardware supports the IRRX capture function. The

IRRXSEL[1:0] bits define which edge(s) of the IRRX pin

should trigger the IR timer capture function.

The IR module starts operating in the receive mode when

IRMODE = 0 and IREN = 1. Once started, the IR timer

(IRV) starts up counting from 0000h when a qualified

capture event as defined by IRRXSEL happens. The IRV

by the IRCA register. However, the IR carrier frequency

detect (IRCFME) bit can be set to 1 to allow clocking of

the IRV register directly with the IRCLK for finer resolu-

tion. When IRCFME = 0, the IRCA defined carrier is

counted by IRV. When IRCFME = 1, the IRCLK clocks

the IRV register.

On the next qualified event, the IR module does the

following:

1) Captures the IRRX pin state and transfers its value

2) Transfers its current IRV value to the IRMT.

3) Resets IRV content to 0000h (if IRXRL = 1).

4) Continues counting again until the next qualified event.

If the IR timer value rolls over from 0FFFFh to 0000h

before a qualified event happens, the IR timer overflow

(IROV) flag is set to 1 and an interrupt is generated, if

to IRDATA. If a falling edge occurs, IRDATA = 0. If a

rising edge occurs, IRDATA = 1.

IRMT

Maxim Integrated

IR Receive

IRMT

MAX6745XKVD3+T Maxim Integrated, MAX6745XKVD3+T Datasheet - Page 16

MAX6745XKVD3+T

Specifications of MAX6745XKVD3+T

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