MIC2561 Datasheet, PDF(6/8 Page) Micrel Semiconductor – PCMCIA Card Socket VCC & VPP Switching Matrix

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MIC2561 Datasheet, PDF (6/8 Pages) Micrel Semiconductor – PCMCIA Card Socket VCC & VPP Switching Matrix

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MIC2561

Micrel

Applications Information

Supply Bypassing

PCMCIA VCC and VPP control is easily accomplished using External capacitors are not required for operation. The

the MIC2561 voltage selector/switch IC. Four control bits MIC2561 is a switch and has no stability problems. For best

determine VCC OUT and VPP OUT voltage and standby/

operate mode condition. VPP OUT output voltages of VCC

(3.3V or 5V), VPP, or a high impedance state are available.

When the VCC high impedance condition is selected, the

device switches into âsleepâ mode and draws only nano-

results however, bypass VCC3 IN, VCC5 IN, and VPP IN

inputs with filter capacitors to improve output ripple. As all

internal device logic and voltage/current comparison func-

tions are powered from the VCC3 IN line, supply bypass of this

line is the most critical, and may be necessary in some cases.

amperes of leakage current. An error flag falls low if the output In the most stubborn layouts, up to 0.47ÂµF may be necessary.

is improper, because of overtemperature or overcurrent Both VCC OUT and VPP OUT pins may have 0.01ÂµF to 0.1ÂµF

faults. Full protection from hot switching is provided which capacitors for noise reduction and electrostatic discharge

prevents feedback from the VPP OUT to the VCC inputs (from (ESD) damage prevention. Larger values of output capacitor

12V to 5V, for example) by locking out the low voltage switch might create current spikes during transitions, requiring larger

until VPP OUT drops below VCC. The VCC output is similarly bypass capacitors on the VCC3 IN, VCC5 IN, and VPP IN pins.

protected against 5V to 3.3V shoot through.

PCMCIA Implementation

The MIC2561 is a low-resistance power MOSFET switching

matrix that operates from the computer system main power

supply. Device logic power is obtained from VCC3 and

internal MOSFET drive is obtained from the VPP IN pin

(usually +12V) during normal operation. If +12V is not avail-

able, the MIC2561 automatically switches into âsuspendâ

mode, where VCC OUT can be switched to 3.3V, but at higher

switch resistance. Internal break-before-make switches de-

termine the output voltage and device mode.

The Personal Computer Memory Card International Associa-

tion (PCMCIA) specification requires two VPP supply pins per

PCMCIA slot. VPP is primarily used for programming Flash

(EEPROM) memory cards. The two VPP supply pins may be

programmed to different voltages. Fully implementing PCM-

CIA specifications requires a MIC2561, a MIC2557 PCMCIA

VPP Switching Matrix, and a controller. Figure 3 shows this

full configuration, supporting both 5.0V and 3.3V VCC opera-

tion.

System

Power 3.3V

Supply

12V

PCMCIA

Card Slot

Controller

VPPIN VCC3IN VCC5IN

EN0

EN1

MIC2561

VCC5_EN

VCC3_EN

VPP1

PCMCIA

Card Slot

VPP2

VCC

VPP IN VDD VCC

EN0

VPP OUT

EN1 MIC2557

Figure 3. MIC2561 Typical PCMCIA memory card application with dual VCC (5.0V or 3.3V) and separate VPP1 and VPP2.

1997

2-35

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