參數(shù)資料
型號(hào): MAX614
廠商: Maxim Integrated Products, Inc.
英文描述: Dual-Slot PCMCIA Analog Power Controllers(單插口PCMCIA標(biāo)準(zhǔn)模擬功率控制器)
中文描述: 雙槽、PCMCIA模擬電源控制器
文件頁數(shù): 6/8頁
文件大?。?/td> 121K
代理商: MAX614
M
Dual-S lot PCMCIA
Analog Power Controllers
6
_______________________________________________________________________________________
V CC S witc hing
The MAX613/MAX614 contain level shifters that simplify
driving external power MOSFETs to switch PCMCIA card
VCC. While a PCMCIA card is being inserted into the
socket, the VCC pins on the card edge connector should
be powered down to 0V to prevent “hot insertion” that
may damage the PCMCIA card. The MAX613/MAX614
MOSFET drivers are open drain. Their rise time is con-
trolled by an external pull-up resistor, allowing slow turn-
on of VCC power to the PCMCIA card.
The DRV3 and DRV5 pins on the MAX613 and the DRV
pin on the MAX614 are open-drain outputs pulled down
with internal N-channel devices. The gate drive to
these internal N-channel devices is powered from
VCCIN, regardless of VPPIN’s voltage. If VCCIN is left
unconnected or less than 2V is applied to VCCIN, the
DRV3/DRV5/DRV gate drivers will not sink current.
To switch VCC (M1 and M2 in Figure 1), use external
N-channel power MOSFETs. M1 and M2 should be
logic-level N-channel power MOSFETs with low on
resistance. The Motorola MTP3055EL and Siliconix
Si9956DY MOSFETs are both good choices. Turn on
M1 and M2 by pulling their gates above +5V. With the
gates pulled up to VPPIN as shown in Figure 1, VPPIN
should be at least 10V so that with VCC = 5.5V, M1 and
M2 have at least 4.5V of gate drive.
The gates of M1 and M2 can be pulled up to any 10V to
20V source, and do not need to be pulled up to VPPIN.
Typically, the +12V used for VPPIN is supplied from a
+5V to +12V switching regulator. To save power, the
+5V to +12V switching regulator can be shut down
when not using the VPP programming voltage, allowing
VPPIN to fall below +5V.
In this case, M1 and M2 should not be pulled up to
VPPIN, since M1 and M2 cannot be turned on reliably
when VPPIN falls below +10V. Any clock source can
be used to generate a high-side gate-drive voltage by
using capacitors and diodes to build an inexpensive
charge pump. Figure 3 shows a charge-pump circuit
that generates 10V from a +5V logic clock source.
__________Applic ations Information
The MAX613 contains all the gate drivers and switch-
ing circuitry needed to support a +3.3V/+5V VCC
PCMCIA slot with minimal external components.
Figure 4 shows the analog power control necessary to
support two dual voltage PCMCIA slots. The A:VCC
and B:VCC pins on the Intel 82365SL DF power the
drivers for the control signals that directly connect to
the PCMCIA card.
A 3.3V card needs 3.3V logic-level control signals and
the capability to program VPP1 and VPP2 to 3.3V. The
MAX613’s VCCIN is switched with slot VCC, so AVPP0
= 1 and AVPP1 = 0 causes AVPP = slot VC C .
Likewise, A:VCC and B:VCC are connected to VCCIN,
so the Intel 82365SL DF control signals to the PCMCIA
card are the right logic levels.
PCMCIA card interface controllers other than the
Intel 82365SL DF can be used with Figure 4’s cir-
cuit. Table 4 shows the pins on the Cirrus Logic
CL-PD6720 that perform the same function as the
Intel 82365SL DF pins.
LOGIC INPUT
AVPP1
AVPP0
AVPP
0
0
0V
0
1
VCCIN
1
0
VPPIN
1
1
HI-Z
OUTPUT
LOGIC INPUT
VCC1
VCC0
DRV3
DRV5
0
0
0V
0V
0
1
HI-Z
0V
1
0
0V
HI-Z
1
1
0V
0V
LOGIC INPUT
OUTPUT
BVPP1
BVPP0
BVPP
0
0
0V
0
1
VCCIN
1
0
VPPIN
1
1
HI-Z
Table 3. MAX613 DRV3 and DRV5 Control
Logic (–—H—D—N = VCCIN)
OUTPUT
Table 1. AVPP Control Logic
Table 2. BVPP Control Logic
相關(guān)PDF資料
PDF描述
MAX613 Dual-Slot PCMCIA Analog Power Controllers(單插口PCMCIA標(biāo)準(zhǔn)模擬功率控制器)
MAX620EWN Quad, High-Side MOSFET Drivers
MAX620CPN Quad, High-Side MOSFET Drivers
MAX620CWN Quad, High-Side MOSFET Drivers
MAX620EPN Quad, High-Side MOSFET Drivers
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