MICREL MIC2564A-0YTS

MIC2564A
Micrel
MIC2564A
Dual Serial PCMCIA/CardBus Power Controller
General Description
Features
The MIC2564A is dual-slot PC Card PCMCIA (Personal Computer Memory Card International Association) and CardBus
power controller. It is a sophisticated power switching matrix
that controls VCC and VPP voltages to two PC Card slots. The
MIC2564A is used in conjunction with a serial-data output logic
controller using the standard three-wire serial control data
format.
•
•
•
•
•
•
•
•
•
•
•
•
•
When connected to 3.3V, 5V, and 12V system power supplies,
the MIC2564A can switch its VCC outputs between 0V, 3.3V,
5.0V, and high-impedance states and VPP outputs between 0V,
3.3V, 5V, 12V, and high-impedance states. The VCC outputs
will supply a minimum of 1A current to the socket and the VPP
outputs will supply a minimum of 120mA to the socket. Voltage
rise and fall times are well controlled. The MIC2564A also
features an efficient standby (sleep) mode at 0.3mA typical
quiescent current.
Standard 3-wire serial control data input
Controls two card slots from one surface mount device
High-efficiency, low-resistance switches
12V supply optional (not required by MIC2564A)
Current limit and overtemperature shutdown
Ultra-low 1mA-typical standby power consumption
Cross-conduction lockout (no switching transients)
Break-before-make switching
1A minimum VCC output per slot
Independent VCC and VPP voltage output (MIC2564A-1)
120mA minimum VPP output current per slot
Lead-free 24-pin surface-mount TSSOP package
UL recognized, file #179633
Applications
•
•
•
•
•
•
12V and 5V supplies are not required for MIC2564A operation
making it possible to omit one or both supplies when they are not
needed by the system. An internal charge pump supplies the
internal bias voltages required for high-performance switching.
PC Card and CardBus power control
Zoom Video port power control
Wireless communications
Bar code data collection systems
Docking stations (portable and desktop)
Power supply management
The MIC2564A is protected by overtemperature shutdown, and
protects itself and the system with current limiting and crossconduction lockout.
The MIC2564A is available in 24-pin SSOP, 24-pin TSSOP,
and an environmentally friendly (lead-free) 24-pin TSSOP.
All support documentation can be found on Micrel’s web site
at www.micrel.com.
Typical Application
Slot A
Address and data lines
between logic controller and
PCMCIA cards not shown.
System Power Supply
(OPTIONAL)
(OPTIONAL)
12V
5V
3.3V
VPP1
VPP2
PCMCIA
Card
A
VCC
System Reset
VPP IN
(OPTIONAL)
Dual-Slot
Logic Controller
PCMCIA,
CardBus,
or Zoom Video
VCC3 IN
VCC5 IN
(OPTIONAL)
Slot B
A V PP OUT
RST#
MIC2564A
Power
Serial Controller
Control
Bus
GND
A V CC OUT
B V PP OUT
B V CC OUT
VPP1
VPP2
PCMCIA
Card
B
VCC
Motherboard
UL Recognized Component
PCMCIA Card Power Management Application
Micrel, Inc. • 1849 Fortune Drive • San Jose, CA 95131 • USA • tel + 1 (408) 944-0800 • fax + 1 (408) 944-0970 • http://www.micrel.com
March 2004
1
M0250-031104
MIC2564A
Micrel
Ordering Information
Part Number
Temperature Range
Package
Lead-Finish
MIC2564A-0BSM
–40∞C to +85∞C
24-pin SSOP
Standard
MIC2564A-1BSM*
–40∞C to +85∞C
24-pin SSOP
Standard
MIC2564A-0BTS
–40∞C to +85∞C
24-pin TSSOP
Standard
MIC2564A-1BTS*
–40∞C to +85∞C
24-pin TSSOP
Standard
MIC2564A-0YTS
–40∞C to +85∞C
24-pin TSSOP
Lead-free
MIC2564A-1YTS*
–40∞C to +85∞C
24-pin TSSOP
Lead-free
* -1 option: independent VPP OUT and VCC OUT programming
Pin Configuration
VCC5 IN 1
24 A VCC OUT
A VCC OUT 2
23 VCC3 IN
VCC5 IN 3
22 A VCC OUT
A FLAG 4
21 GND
SDA 5
20 A VPP OUT
SCL 6
19 VPP IN
RST# 7
18 VPP IN
SLA 8
17 B VPP OUT
B FLAG 9
16 GND
VCC5 IN 10
15 B VCC OUT
B VCC OUT 11
14 VCC3 IN
VCC5 IN 12
13 B VCC OUT
24-lead SSOP (SM)
24-lead TSSOP (TS)
Pin Description
Pin Number
Pin Name
1, 3, 10, 12
VCC5 IN
2, 22, 24
A VCC OUT
4
A FLAG
5
SDA
Serial Data (Input).
6
SCL
Serial Clock (Input).
7
RST#
8
SLA
9
B FLAG
11, 13, 15
B VCC OUT
14, 23
VCC3 IN
16, 21
GND
17
B VPP OUT
18, 19
VPP IN
20
A VPP OUT
M0250-031104
Pin Function
5V Supply Input: Optional system power supply connection. Required only
for 5V VCC and VPP output voltage.
Slot A VCC Output: Pins 2, 22 and 24 must be externally connected
together.
Channel A VCC and VPP Output Monitor (Output): Low on error condition.
System Reset (Input): Active low signal deactivates the MIC2564A, clearing
the serial registers and forcing the four power outputs to 0V (GND).
Serial Data Latch (Input).
Channel B VCC and VPP Output Monitor (Output): Low on error condition.
Slot B VCC Output: Pins 11, 13 and 15 must be externally connected
together.
3.3V Supply Input: Required system power supply connection. Powers 3.3V
VCC and VPP outputs and all internal circuitry.
Ground.
Slot B VPP Output.
12V Supply Input: Optional system power supply connection. Required only
for 12V VPP output voltage.
Slot A VPP Output.
2
March 2004
MIC2564A
Micrel
Absolute Maximum Ratings(1)
Operating Ratings(2)
VPP IN ...................................................................... +13.6V
VCC3 IN ....................................................................... +6.0V
VCC5 IN ....................................................................... +6.0V
VSCL, VSDA, VSLA, VRST# .................................... –0.3V to +6.0V
VA FLAG, VB FLAG ....................................................... +6.0V
A or B VPP OUT ....................... >120mA, Internally Limited
A or B VCC OUT .............................. >1A, Internally Limited
Power Dissipation (PD) at TA £ 25∞C ....... Internally Limited
Storage Temperature ............................... –65∞C to +150∞C
Lead Temperature (5 sec.) ...................................... +260∞C
ESD Rating(3)
VPP IN ............................................................ 0V to +13.2V
VCC3 IN ........................................................ +3.0V to +5.5V
VCC5 IN ............................................................. 0V to +5.5V
VSCL, VSDA, VSLA, VRST# ................................. 0V to +5.5V
A or B VPP OUT ................................................ 0 to 120mA
A or B VCC OUT ....................................................... 0 to 1A
Clock Frequency ................................................. 0 to 2MHz
Ambient Temperature (TA) ......................... –40∞C to +85∞C
Junction Temperature (TJ) ...................................... +125∞C
Package Thermal Resistance
SSOP (qJA) ...................................................... 90∞C/W
TSSOP (qJA) .................................................... 83∞C/W
Electrical Characteristics(4)
VCC3 IN = 3.3V, VCC5 IN = 5.0V, VPP IN = 12V; TA = 25∞C, bold indicates –40∞C £ TA £ +85∞C; unless noted.
Symbol
Parameter
Conditions
Min
Typ
Max
Units
IPP OUT
Hi-Z
High-Impedance Output
Leakage Current
Shutdown mode
VPP OUT = 0V
1
10
mA
IPPSC
Short Circuit Current Limit
VPP OUT = 0V, normal mode(5)
260
400
mA
RO
Switch Resistance
VPP OUT = 5V selected,
IPP OUT = –100mA (sourcing)
1.6
5
W
VPP OUT = 3.3V selected,
IPP OUT = –100mA (sourcing)
1.3
5
W
VPP OUT = 12V selected, VPP IN = 12V,
IPP OUT = –100 mA (sourcing)
1.3
2.3
W
2000
5000
W
VPP OUT = Hi-Z to 10% of 3.3V, RL = 100W
1
100
ms
t2
VPP OUT = Hi-Z to 10% of 5V, RL = 100W
1
100
ms
t3
VPP OUT = Hi-Z to 10% of 12, RL = 100W
50
250
ms
VPP Output
120
VPP OUT = 0V [ground] selected,
IPP OUT = 50mA (sinking)
VPP Switching Time (See Figure 3)
t1
Output Turn-On Delay(6)
VPP OUT = 10% to 90% of 3.3, RL = 100W
10
100
500
ms
VPP OUT = 10% to 90% of 5, RL = 100W
10
250
1000
ms
VPP OUT = 10% to 90% of 12, RL = 100W
10
100
500
ms
VPP OUT = 3.3V to 90% of 12V, RL = 100W
10
100
500
ms
t8
VPP OUT = 5V to 90% of 12, RL = 100W
10
100
500
ms
t9
VPP OUT = 12V to 90% of 3.3, RL = 100W
10
100
500
ms
t10
VPP OUT = 12V to 90% of 5, RL = 100W
10
250
1000
ms
VPP OUT = 90% to 10% of 3.3, RL = 100W
1
500
ms
t12
VPP OUT = 90% to 10% of 5, RL = 100W
1
500
ms
t13
VPP OUT = 90% to 10% of 12, RL = 100W
1
500
ms
t4
Output Rise Time
t5
t6
t7
t11
Output Transition
Time(6)
Output Turn-Off Fall Time
Notes:
1. Exceeding the absolute maximum rating may damage the device.
2. The device is not guaranteed to function outside its operating rating.
3. Devices are ESD sensitive. Handling precautions recommended.
4. Specification for packaged product only.
5. Output enabled into short circuit.
6. Measurement is from the 50% point of the SLA rising edge.
March 2004
3
M0250-031104
MIC2564A
Micrel
Electrical Characteristics(7)
Symbol
Parameter
Conditions
t14
Output Turn-Off Delay Time(8, 11)
Min
Typ
Max
Units
VPP OUT = 3.3V to Hi-Z, RL = 100W
1
50
ms
t15
VPP OUT = 5V to Hi-Z, RL = 100W
1
50
ms
t16
VPP OUT = 12V to Hi-Z, RL = 100W
1
50
ms
Shutdown mode, VCC OUT = 0V
1
20
mA
2.0
3.0
A
VCC Output
ICC OUT Hi-Z High-Impedance Output
Leakage Current
ICCSC
Short Circuit Current Limit
VCC OUT = 0, normal mode,
VCC3 or VCC5 switches(9)
1.0
RO
Switch Resistance
VCC OUT = 3.3V selected,
ICC OUT = –1A (sourcing)
120
150
mW
VCC OUT = 5V selected,
ICC OUT = –1A (sourcing)
85
120
mW
VCC OUT = 0V [ground] selected,
ICC OUT = 0.1mA (sinking)
2000
3900
W
VCC OUT = 0V to 10% of 3.3, RL = 10W
250
500
ms
VCC OUT = 0V to 10% of 5.0, RL = 10W
500
1000
ms
VCC Switching Time (See Figure 4)
t17
Output Turn-On Delay Time(8)
t18
t19
Output Rise Time
t20
t21
Output Fall Time
t22
t23
Output Turn-Off Delay(8, 10)
t24
VCC OUT = 10% to 90% of 3.3V, RL = 10W
750
1200
5000
ms
VCC OUT = 10% to 90% of 5, RL = 10W
1000
2200
5000
ms
VCC OUT = 90% to 10% of 3.3, RL = 10W
100
550
1000
ms
VCC OUT = 90% to 10% of 5.0, RL = 10W
100
400
2000
ms
VCC OUT = 3.3V to 90% of 3.3V, RL = 10W
400
2000
ms
VCC OUT = 5V to 90% of 5V, RL = 10W
400
2000
ms
VCC OUT = 5V or 3.3V, ICC OUT = 0
120
200
mA
VCC OUT = Hi-Z (sleep mode)
5
10
mA
VCC OUT = 5V or 3.3V, ICC OUT = 0
25
50
mA
VCC OUT = Hi-Z (sleep mode)
0.2
10
mA
VPP OUT = 0V, 3.3V, 5V, or Hi-Z; IPP OUT = 0
1
10
mA
VPP OUT = VPP IN
4
50
mA
3.3
5.5
V
Power Supply
ICC3
ICC5
IPP IN
VCC3 IN Supply Current (3.3V)(11)
VCC5 IN Supply Current
VPP IN Supply Current
(5V)(12)
(12V)(12)
VCC3
Operating Input Voltage (3.3V)
Note 11
3.0
VCC5
Operating Input Voltage (5V)
Note 12
5.0
5.5
V
VPP
Operating Input Voltage (12V)
Notes 12, 13
12
13.2
V
Notes:
7. Specification for packaged product only.
8. Measurement is from the 50% point of the SLA rising edge.
9. Output enabled into short circuit.
10. Measurement is from the Hi-Z- or 0V-state command to the beginning of the slope. Measurement does not apply when device is in current limit or
thermal shutdown.
11. VCC3 IN powers all internal logic, bias, and drive circuitry, and is required for operation.
12. VPP and VCC5 IN are not required for operation.
13. VPP IN must be either high-impedance or greater than or approximately equal to the highest voltage VCC in the system. For example, if both 3.3V
and 5V are connected to the MIC2564A, VPP IN must be either 5V, 12V, or high-impedance.
M0250-031104
4
March 2004
MIC2564A
Symbol
Micrel
Parameter
Conditions
Min
Typ
Max
Units
Thermal Shutdown
TSD
Thermal Shutdown Temperature
∞C
145
Serial Interface DC Specifications
VIH
Input Voltage: SDA, SCL, SLA pins
0.7VCC3IN
5.5
V
VIL
Input Voltage: SDA, SCL, SLA pins
–0.3
0.3VCC3IN
V
IIN
Input Current
0V < VIN < 5.5V
1
mA
Flag Leakage Current
VFLG = 5V
1
mA
–1
0.2
Flag
IFLG
Serial Interface Timing Requirements (See Figures 1 and
tHD:DAT
SDA Hold Time
tSU:DAT
SDA Setup Time
tSU:SLA
Latch Setup Time
tSU:RST#
Reset to Data Setup Time
tW
Minimum Pulse Width
tR
tF
2)(14)
75
ns
75
ns
50
ns
RST# before data
50
ns
Clock (tW:CLK)
50
ns
Latch (tW:SLA)
100
ns
Reset (tW:RST)
50
ns
Data (tW:DA)
50
ns
f = 32kHz(15)
0
100
ns
32kHz(15)
0
100
ns
Data before clock
SCL Rise Time
SCL Fall Time
f=
Notes:
14. Guaranteed by design not production tested.
15. Guaranteed by characterization but not production tested.
Serial Control Timing Diagram
tW:DAT
RST#
tSU:RST#
D8
D7
D6
D5
D4
D3
D2
D1
D0
SDA
tSU:SLA
tW:CLK
tSU:DAT
tW:SLA
tHD:DAT
SLA
SCL
Figure 1. Serial Control Timing Diagram
The MIC2564A uses a three-wire serial interface to control VCC and VPP outputs for both sections A and B. The three control
lines have thresholds compatible with both 3.3V and 5V logic families. Data (SDA) is clocked in on the rising clock edge. The
clock signal may be continuous or it may halt after all data is clocked in.
tr
SCL
tf
90%
90%
10%
10%
Figure 2. SCL Rise and Fall Times
March 2004
5
M0250-031104
MIC2564A
Micrel
Output Timing Diagrams
A
B
C
D
E
F
G
H
VPP
Enable
0
VPP to 3.3V VPP to 12V
VPP to 3.3V VPP
OFF
VPP to 5V
VPP to 12V
VPP to 5V
K
J
VPP
OFF
VPP to 12V
VPP OFF
t13
t7
t9
t10
t8
t6
t16
12V
VPP
OUT
t2
t1
t4
t11
t5
t15
t14
t3
t12
5V
3.3V
0
/FLAG
Figure 3. VPP Timing Diagram
VPP Enable is shown generically. RL = 100W. CL = negligible. Refer to the serial control timing diagrams for details.
At time “A”, VPP = 3.3V is selected, “B”, VPP is set to 12V, “C”, VPP = 3.3V (from 12V), “D”, VPP is disabled, “E”, VPP is
programmed to 5V, “F”, VPP is set to 12V, “G”, VPP is programmed to 5V, “H”, VPP is disabled, “J”, VPP is set to 12V, “K”, VPP
is again disabled.
A
VCC
Enable
0
B
C
D
VCC to 3.3V
VCC OFF
VCC to 5V
t17
t23
t18
t19
t21
t20
VCC OFF
t24
t22
5V
VCC 3.3V
OUT
0
/FLAG
0
Figure 4. VCC Timing Diagram
VCC Enable is shown generically. RL = 10W. Refer to the serial control timing diagrams for specific control logic input.
At time “A”, VCC is programmed to 3.3V, “B”, VCC is disabled, “C”, VCC is programmed to 5V, “D”, VCC is disabled.
M0250-031104
6
March 2004
March 2004
7
1
1
1
1
1
1
0
0
0
0
1
1
1
1
0
0
0
X = don’t care, * clamped to ground,
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
†
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
illegal state per “The PC Card Specification.”
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
1
1
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
1
1
0
1
1
0
0
1
1
0
0
1
0
X
1
0
X
D3
A VCC5
0
X
D4
B VPP_PGM
0
X
D5
B VPP_VCC
1
X
0
D6
B VCC3
1
D7
B VCC5
D8
SHDN
MIC2564A-0 Logic Table
1
1
1
1
0
0
0
0
1
1
1
1
0
0
0
0
X
D2
A VCC3
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
0
X
D1
A VPP_VCC
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
X
D0
A VPP_PGM
0V*
Hi-Z
0V*
0V*
0V*†
0V*
0V*
12V†
3.3V
3.3V
3.3V
3.3V
5V
5V
5V
5V
0V*
0V*
Hi-Z
3.3V
12V
0V*
Hi-Z
5V
12V
0V*
Hi-Z
0V*
0V*
0V*†
0V*
Hi-Z
12V†
Hi-Z
0V*
Hi-Z
0V*
0V*
0V†
12V†
0V*
0V*
5V
5V
5V
5V
3.3V
3.3V
3.3V
3.3V
0V*
0V*
Hi-Z
5V
12V
0V*
Hi-Z
3.3V
12V
0V*
Hi-Z
0V*
0V*
0V*†
0V*
Hi-Z
12V†
Hi-Z
B VPP OUT B VCC OUT A VPP OUT A VCC OUT
MIC2564A
Micrel
M0250-031104
M0250-031104
8
0
†
0
0
1
1
1
1
0
0
0
0
1
1
1
1
0
0
0
X = don’t care, * clamped to ground,
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
1
1
0
0
1
1
0
0
1
0
1
1
0
1
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
illegal state per “The PC Card Specification.”
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
1
1
0
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
0
1
1
0
0
1
0
1
1
0
X
1
X
D3
A VCC5
0
X
D4
B VPP_PGM
1
X
D5
B VPP_VCC
0
X
0
D6
B VCC3
1
D7
B VCC5
D8
SHDN
MIC2564A-1 Logic Table
1
1
1
1
0
0
0
0
1
1
1
1
0
0
0
0
X
D2
A VCC3
1
1
0
0
1
1
0
0
1
1
0
0
1
1
0
0
X
D1
A VPP_VCC
1
0
1
0
1
0
1
0
1
0
1
0
1
0
1
0
X
D0
A VPP_PGM
Hi-Z
0V*
0V*
0V*
0V*
0V*†
0V*
3.3V
3.3V
3.3V
3.3V
5V
5V
5V
5V
0V*
12V†
5V
3.3V
12V
0V*
3.3V
5V
12V
0V*
Hi-Z
0V*
0V*†
12V†
0V*
0V*
Hi-Z
0V*
Hi-Z
Hi-Z
0V*
0V*
0V*
0V*
0V†
0V*
5V
5V
5V
5V
3.3V
3.3V
3.3V
3.3V
0V*
12V†
3.3V
5V
12V
0V*
5V
3.3V
12V
0V*
Hi-Z
0V*
0V*†
0V*
0V*
12V†
Hi-Z
0V*
Hi-Z
B VPP OUT B VCC OUT A VPP OUT A VCC OUT
MIC2564A
Micrel
March 2004
MIC2564A
Micrel
Functional Diagram
VCC3 IN
3.3V
VCC5 IN
5V
(optional)
VPP IN
12V
(optional)
Gate-Drive
Charge Pump
SDA
SCL
A VPP OUT
RST#
SLA
B VPP OUT
Control
Logic
A VCC OUT
A FLAG
B VCC OUT
B FLAG
Current
Limit
Thermal
Shutdown
MIC2564
GND
March 2004
9
M0250-031104
MIC2564A
Micrel
compatible with, and requires, a different VCC level, the logic
controller commands the power controller to make this change
by disabling VCC, waiting at least 100ms, and then reenabling the other VCC voltage.
If no card is inserted, or the system is in sleep mode, the logic
controller commands the MIC2564A to shut down VCC. This
also places the switch into a shutdown (sleep) mode, where
current consumption drops to nearly zero, with only tiny
CMOS leakage currents flowing.
Internal device control logic, MOSFET drive and bias voltage
is powered from VCC3 IN. The high voltage bias is generated
by an internal charge pump multiplier. Input logic threshold
voltages are compatible with common PC Card logic controllers using either 3.3V or 5V supplies.
PC Card Voltage Regulation
The MIC2564A has been designed to meet or exceed PC
Card voltage regulation specifications. The on-resistance of
the FET switches will meet regulation requirements at 600mA
and 1A respectively for VCC = 5V ±3% and 3.3V ±3%.
Flash Memory Implementation
When programming flash memory (standard +12V flash
memories), the PC Card slot logic controller enables VPP on
the MIC2564A, which connects VPP IN (nominally +12V) to
VPP OUT. The low on-resistance of the MIC2564A switch
allows using a small bypass capacitor on the VPP OUT pins,
with the main filtering performed by a large filter capacitor on
VPP IN. (Usually the main power supply filter capacitor is
sufficient.) Using a small-value capacitor such as 0.1mF on
the output causes little or no timing delays.
The VPP OUT transition from VCC to 12.0V typically takes
200ms. After programming is completed, the logic controller
signals to the MIC2564A, which then reduces VPP OUT to the
VCC level. Break-before-make switching action and controlled rise times reduce switching transients and lower
current spikes through the switch.
Output Current and Protection
The MIC2564A meets or exceeds all PCMCIA specifications.
MIC2564A output switches are capable of passing the maximum current needed by any PC Card. For system and card
protection, output currents are internally limited. For full
system protection, long term (longer than a few milliseconds)
output short circuits invoke overtemperature shutdown, protecting the MIC2564A, the system power supplies, the card
socket pins, board traces, and the PC Card. Individual
internal status registers for each slot indicate when power
problems exist.
Control Bus Interface Overview
The MIC2564A power controller communicates with a logic
controller (host adapter) via a 3-wire serial interface. A fourth
control line attaches to the system reset line (RST#) and
places all MIC2564A switches in the high-impedance (off)
state. The reset function is active low.
Applications Information
PC Card power control for two sockets is easily accomplished
using the MIC2564A PC Card/CardBus power controller.
Control commands from a three-wire (plus Reset) serial bus
determine VCC and VPP output voltages and select standby
or operate mode.
VCC outputs of 3.3V and 5V at the maximum allowable PC
Card current are supported. The VCC outputs also support
GND (0V) and high-impedance states. The VPP outputs
support VPP (12V), VCC voltages (3.3V or 5V), GND (0V), or
high-impedance. When the VCC = Hi-Z (high-impedance)
condition is selected, the device switches into sleep mode
and draws only leakage current.
Full protection during hot switching is provided which prevents feedback from the VCC output (for example, from the 5V
supply into the 3.3V supply) by locking out the low-voltage
switch until the initial switch’s gate voltage drops below 0.7V.
MIC2564A internal logic and MOSFET drive circuitry is
powered from the VCC3 input and internal charge-pump
voltage multipliers. Switching speeds are carefully controlled
to prevent damage to sensitive loads and meet all PC Card
specification timing requirements, including those for the
CardBus option.
Supply Bypassing
The MIC2564A is a switch and has no stability problems;
however, supply bypass capacitors are recommended to
reduce inductive transients and improve output ripple. As all
internal device logic and comparison functions are powered
from the VCC3 input, the power supply quality on this line is the
most important. Micrel recommends placing 1mF surfacemount ceramic (low ESR) capacitors from VCC3 IN and
VCC5 IN pins to ground and two 0.1mF surface-mount ceramic
capacitors, one from each VPP IN pin, to ground. Also, the
VCC OUT and VPP OUT pins may use 0.01mF to 0.1mF
capacitors for noise reduction and to reduce the chance of
ESD (electrostatic discharge) damage.
Power Status Feedback (Flags)
Two flag outputs monitor the VCC and VPP output voltages on
both slot A and B, falling low when the voltage is not proper.
Use of these open-drain flag outputs is optional; if they are
used, a pull-up resistor to either the 3.3V or 5V supply is
required. Unused flag outputs may be left open.
PC Card Slot Implementation
The MIC2564A is designed for full compatibility with the
PCMCIA (Personal Computer Memory Card International
Association) PC Card Specification including the CardBus
and Zoom Video (ZV) options.
When a PC card is initially inserted, it should receive VCC
(3.3V ± 0.3V or 5.0V ±5%). The initial voltage is determined
by a combination of mechanical socket keys and voltage
sense pins. The card sends a handshaking data stream to the
logic controller, which then determines if this card requires
VPP and if the card is designed for dual VCC. If the card is
M0250-031104
10
March 2004
MIC2564A
Micrel
Slot A
Controller
Power
(3.3V or 5V)
2
Generic
330k
PCMCIA/CardBus
Host Adapter
+3.3V
+5V
1.0µF
1.0µF
ceramic
14, 23
4
A PGOOD
9
B PGOOD
5
SDATA
6
SCLK
8
SLATCH
7
RST#
ceramic
VCC5 IN
VCC
VPP IN
A V PP OUT
MIC2564
Power
Controller
SDA
SCL
A V CC OUT
B VPP OUT
SLA
B VCC OUT
RST#
VPP2
18, 19
A FLG
B FLG
VPP1
0.1µF 0.1µF
ceramic
1, 3, 10
VCC3 IN
VCC
+12V
20
2, 22, 24
0.01µF
Slot B
0.01µF
17
11, 13, 15
VPP1
0.01µF
VPP2
0.01µF
GND
16, 21
VCC
System Reset
Figure 5. Generic “3-Wire” Serial Control Interface
Slot A
+3.3V
+5V
1.0µF
1.0µF
ceramic
14, 23
Cirrus Logic
CL-PD6832/33
SDATA
SCLK
SLATCH
RST#
VCC3 IN
131
5
132
6
130
8
207
7
+12V
1, 3, 10
VCC5 IN
SLA
RST#
VPP2
18, 19
A V CC OUT
B VPP OUT
GND
ceramic
VCC
VPP IN
A V PP OUT
MIC2564
Power
Controller
VPP1
0.1µF
ceramic
SDA
SCL
0.1µF
B VCC OUT
20
2, 22, 24
17
11, 13, 15
0.01µF
Slot B
0.01µF
0.01µF
VPP1
VPP2
0.01µF
16, 21
VCC
System
Reset
Figure 6. Cirrus Logic CL-PD6832 and CL-PD6833 Interface
March 2004
11
M0250-031104
MIC2564A
Micrel
Slot A
+3.3V
+5V
1.0µF
1.0µF
ceramic
O2 Micro
OZ6832
OZ6833
CPWRDATA
CPWRCLK
CPWRLATC
RST#
14, 23
5
132
6
130
8
207
7
0.1µF
ceramic
VCC
VPP IN
A V PP OUT
MIC2564
Power
Controller
SLA
A V CC OUT
B VPP OUT
RST#
VPP2
18, 19
VCC5 IN
SDA
SCL
VPP1
0.1µF
ceramic
1, 3, 10
VCC3 IN
131
+12V
B VCC OUT
GND
20
2, 22, 24
0.01µF
Slot B
0.01µF
17
0.01µF
11, 13, 15
VPP1
VPP2
0.01µF
16, 21
VCC
System
Reset
Figure 7. O2 Micro OZ6833 and OZ6933
Slot A
+3.3V
+5V
1.0µF
1.0µF
ceramic
O2 Micro
OZ6836
OZ6860
SDATA
SCLK
SLATCH
RST#
14, 23
5
118
6
115
8
250
7
VCC5 IN
SLA
RST#
ceramic
18, 19
A V CC OUT
B VPP OUT
GND
VPP2
VCC
VPP IN
A V PP OUT
MIC2564
Power
Controller
VPP1
0.1µF
ceramic
SDA
SCL
0.1µF
1, 3, 10
VCC3 IN
116
+12V
B VCC OUT
20
2, 22, 24
17
11, 13, 15
0.01µF
Slot B
0.01µF
0.01µF
VPP1
VPP2
0.01µF
16, 21
VCC
System
Reset
Figure 8. O2 Micro OZ6860
M0250-031104
12
March 2004
MIC2564A
Micrel
Package Information
5.40 (0.213)
5.20 (0.205)
7.90 (0.311)
7.65 (0.301)
DIMENSIONS:
MM (INCH)
0.875 (0.034) REF
8.33 (0.328)
8.07 (0.318)
2.00 (0.079)
1.73 (0.068)
10°
4°
0.38 (0.015)
0.25 (0.010)
0.21 (0.008)
0.05 (0.002)
0.65 (0.0260) BSC
COPLANARITY:
0.10 (0.004) MAX
0°
–8°
0.22 (0.009)
0.13 (0.005)
1.25 (0.049) REF
0.95 (0.037)
0.55 (0.022)
24-pin SSOP (SM)
4.50 (0.177)
6.4 BSC (0.252)
4.30 (0.169)
0.30 (0.012)
0.19 (0.007)
7.90 (0.311)
7.70 (0.303)
0.65 BSC
(0.026)
DIMENSIONS:
MM (INCH)
1.10 MAX (0.043)
0.20 (0.008)
0.09 (0.003)
8°
0°
0.15 (0.006)
0.05 (0.002)
1.00 (0.039) REF
0.70 (0.028)
0.50 (0.020)
24-pin TSSOP (TS)
March 2004
13
M0250-031104
MIC2564A
Micrel
MICREL, INC. 1849 FORTUNE DRIVE SAN JOSE, CA 95131
TEL
+ 1 (408) 944-0800
FAX
+ 1 (408) 944-0970
WEB
USA
http://www.micrel.com
The information furnished by Micrel in this data sheet is believed to be accurate and reliable. However, no responsibility is assumed by Micrel for its use.
Micrel reserves the right to change circuitry and specifications at any time without notification to the customer.
Micrel Products are not designed or authorized for use as components in life support appliances, devices or systems where malfunction of a product can
reasonably be expected to result in personal injury. Life support devices or systems are devices or systems that (a) are intended for surgical implant into
the body or (b) support or sustain life, and whose failure to perform can be reasonably expected to result in a significant injury to the user. A Purchaser’s
use or sale of Micrel Products for use in life support appliances, devices or systems is at Purchaser’s own risk and Purchaser agrees to fully indemnify
Micrel for any damages resulting from such use or sale.
© 2003 Micrel, Incorporated.
M0250-031104
14
March 2004