FAIRCHILD FSA3000

FSA3000 — Two-Port, High-Speed, MHL™ Switch
Features
Description

Low On Capacitance: 2.7 pF/4.1 pF MHL/USB
(Typical)




Low Power Consumption: 30 μA Maximum
The FSA3000 is a bi-directional, low-power, two-port,
high-speed, USB2.0 and video data switch that supports
the Mobile High-Definition Link (MHL) Specification Rev.
2.0. Configured as a double-pole, double-throw (DPDT)
switch for data, FSA3000 is optimized for USB2.0 and
MHL data sources.
MHL Data Rate: 4.92 Gbps (f3dB = 2.46 GHz)
Packaged in 10-Lead MicroPak™
Over-Voltage Tolerance (OVT) on all USB and MHL
Ports; Up to 5.25 V without External Components
Applications

Cell Phones and Digital Cameras
The FSA3000 contains circuitry on the switch I/O pins
that allows the device to withstand an over-voltage
condition in applications where the VCC supply is powered
off (VCC=0). The FSA3000 minimizes current
consumption even when the voltage applied to the control
pins is lower than the supply voltage (VCC). This feature is
especially valuable in mobile applications, such as cell
phones; allowing direct interface with the general-purpose
I/Os of the baseband processor. Other applications
include switching and connector sharing in portable cell
phones, digital cameras, and notebook computers.
Ordering Information
Part Number
Top Mark
Operating
Temperature Range
FSA3000L10X
LK
-40 to +85°C
Package
10-Lead, MicroPakTM 1.6 x 2.1 mm JEDEC MO255B
USB+
D+
MH L+
USB-
D-
MH LS el
C o n tro l
/O E
Figure 1. Analog Symbol
All trademarks are the property of their respective owners.
© 2010 Fairchild Semiconductor Corporation
FSA3000 • Rev. 1.0.4
www.fairchildsemi.com
FSA3000 — Two-Port, High-Speed, MHL Switch
November 2012
SEL(1)
/OE(1)
Function
X
HIGH
USB and MHL paths both high impedance
LOW
LOW
D+/D- connected to USB+/USB-
HIGH
LOW
D+/D- connected to MHL+/MHL-
Note:
1. Control inputs should never be left floating or unconnected.
Pin Configurations
V cc
USB+
1
USB -
10
9
SEL
2
8
D+
MHL+
3
7
D-
MHL -
4
6
/OE
FSA3000 — Two-Port, High-Speed, MHL™ Switch
Data Switch Select Truth Table
5
GND
Figure 2. Pin Assignments (Top-Through View)
Pin Definitions
Pin#
Name
1
USB+
USB Differential Data (Positive)
2
USB-
USB Differential Data (Negative)
3
MHL+
MHL Differential Data (Positive)
4
MHL-
MHL Differential Data (Negative)
5
GND
Ground
6
/OE
Output Enable (Active LOW)
7
D-
Data Switch Output (Negative)
8
D+
Data Switch Output (Positive)
9
SEL
Data Switch Select
10
VCC
Supply
© 2010 Fairchild Semiconductor Corporation
FSA3000 • Rev. 1.0.4
Description
www.fairchildsemi.com
2
Stresses exceeding the absolute maximum ratings may damage the device. The device may not function or be
operable above the recommended operating conditions and stressing the parts to these levels is not recommended.
In addition, extended exposure to stresses above the recommended operating conditions may affect device reliability.
The absolute maximum ratings are stress ratings only.
Symbol
VCC
VCNTRL
VSW
IIK
IOUT
Parameter
Supply Voltage
(2)
Max.
Unit
-0.5
5.5
V
DC Input Voltage (SEL, /OE)
-0.5
VCC
V
DC Switch I/O Voltage(2,3)
-0.50
5.25
V
DC Input Diode Current
-50
DC Output Current
TSTG
Storage Temperature
MSL
Moisture Sensitivity Level (JEDEC J-STD-020A)
-65
Human Body Model, JEDEC: JESD22-A114
mA
100
mA
+150
°C
1
All Pins
(4)
ESD
Min.
3.5
IEC 61000-4-2, Level 4, for D+/D- and VCC Pins
Contact
8
IEC 61000-4-2, Level 4, for D+/D- and VCC Pins(4)
Air
15
Charged Device Model, JESD22-C101
kV
2
Notes:
2. The input and output negative ratings may be exceeded if the input and output diode current ratings are observed.
3. VSW refers to analog data switch paths (USB and MHL).
4. Testing performed in a system environment using TVS diodes.
FSA3000 — Two-Port, High-Speed, MHL™ Switch
Absolute Maximum Ratings
Recommended Operating Conditions
The Recommended Operating Conditions table defines the conditions for actual device operation. Recommended
operating conditions are specified to ensure optimal performance to the datasheet specifications. Fairchild does not
recommend exceeding them or designing to Absolute Maximum Ratings.
Symbol
VCC
tRAMP(VCC)
VCNTRL
ΘJA
Parameter
Min.
Max.
Unit
Supply Voltage
2.7
4.3
V
Power Supply Slew Rate
100
1000
µs/V
0
4.3
V
313
C°/W
V
Control Input Voltage (SEL, /OE)(5)
Thermal Resistance
VSW(USB)
Switch I/O Voltage (USB Switch Path)
-0.5
3.6
VSW(MHL)
Switch I/O Voltage (MHL Switch Path)
1.65
3.45
V
Operating Temperature
-40
+85
°C
TA
Note:
5. The control inputs must be held HIGH or LOW; they must not float.
© 2010 Fairchild Semiconductor Corporation
FSA3000 • Rev. 1.0.4
www.fairchildsemi.com
3
All typical value are at TA=25°C unless otherwise specified.
Symbol
Parameter
Condition
VCC (V)
VIK
Clamp Diode Voltage
IIN=-18 mA
2.7
VIH
Control Input Voltage High
SEL, /OE
2.7 to 4.3
VIL
Control Input Voltage Low
SEL, /OE
2.7 to 4.3
Control Input Leakage
VSW=0 to 3.6 V,
VCNTRL=0 to VCC
4.3
IOZ(MHL)
Off-State Leakage for Open
MHLn Data Paths
VSW=1.65 ≤ MHL ≤ 3.45 V
IOZ(USB)
Off-State Leakage for Open
USBn Data Paths
ICL(MHL)
ICL(USB)
TA= -40ºC to +85ºC
Min.
Typ.
Max.
-1.2
1.25
Unit
V
V
0.6
V
-500
500
nA
4.3
-500
500
nA
VSW=0 ≤ USB ≤ 3.6 V
4.3
-500
500
nA
On-State Leakage for Closed
(6)
MHLn Data Paths
VSW=1.65 ≤ MHL ≤ 3.45 V
4.3
-500
500
nA
On-State Leakage for Closed
(6)
USBn Data Paths
VSW=0 ≤ USB ≤ 3.6 V
4.3
-500
500
nA
Power-Off Leakage Current
(All I/O Ports)
VSW=0 V or 3.6 V, Figure 4
0
-500
500
nA
RON(USB)
HS Switch On Resistance
(USB to Dn Path)
VSW=0.4 V, ION=-8 mA,
Figure 3
2.7
3.5
4.8
Ω
RON(MHL)
HS Switch On Resistance
(MHL to Dn Path)
VSW=VCC-1050 mV,
ION=-8 mA, Figure 3
2.7
4.7
6.0
Ω
Difference in R
Between
VSW=VCC-1050 mV,
ION=-8 mA, Figure 3,
2.7
0.03
Ω
ON
∆RON(USB) USB Positive-Negative
Difference in R
Between
VSW=0.4V, ION=-8mA,
Figure 3
2.7
0.18
Ω
RONF(MHL) Flatness for RON MHL Path
VSW=1.65 to 3.45 V,
ION=-8 mA, Figure 3
2.7
0.9
Ω
IIN
IOFF
ON
∆RON(MHL) MHL Positive-Negative
ICC
Quiescent Supply Current
V/OE=0, VSEL=0 or VCC,
IOUT=0
4.3
30
µA
ICCZ
Quiescent Supply Current
(High Impedance)
VSEL=X, V/OE=VCC,
IOUT=0
4.3
1
µA
ICCT
Increase in Quiescent Supply
Current
VSEL=X, V/OE =1.65 V
4.3
10
µA
5
FSA3000 — Two-Port, High-Speed, MHL™ Switch
DC Electrical Characteristics
Note:
6. For this test, the data switch is closed with the respective switch pin floating.
© 2010 Fairchild Semiconductor Corporation
FSA3000 • Rev. 1.0.4
www.fairchildsemi.com
4
All typical value are for VCC=3.3 V and TA=25°C unless otherwise specified.
Symbol
Parameter
Condition
VCC (V)
TA= -40ºC to
+85ºC
Unit
Min. Typ. Max.
tON
MHL Turn-On Time,
SEL to Output
RL=50 Ω, CL=5 pF, VSW(USB)=0.8 V,
VSW(MHL)=3.3 V, Figure 5, Figure 6
2.7 to
3.6 V
350
600
ns
tOFF
MHL Turn-Off Time,
SEL to Output
RL=50 Ω, CL=5 pF, VSW(USB)=0.8 V,
VSW(MHL)=3.3 V, Figure 5, Figure 6
2.7 to
3.6 V
125
300
ns
tZHM,ZLM
MHL Enable Time,
/OE to Output
RL=50 Ω, CL=5 pF, VSW(MHL)=3.3 V,
Figure 5, Figure 6
2.7 to
3.6 V
60
150
µs
tZHU,ZLU
USB Enable Time,
/OE to Output
RL=50 Ω, CL=5 pF, VSW(USB)=0.8 V,
Figure 5, Figure 6
2.7 to
3.6 V
100
300
ns
tLZM,HZM
MHL Disable Time,
/OE to Output
RL=50 Ω, CL=5 pF, VSW(MHL)=3.3 V,
Figure 5, Figure 6
2.7 to
3.6 V
35
100
ns
tLZU,HZU
USB Disable Time,
/OE to Output
RL=50 Ω, CL=5 pF, VSW(USB)=0.8 V,
Figure 5, Figure 6
2.7 to
3.6 V
35
100
ns
tPD
Propagation Delay(7)
CL=5 pF, RL=50 Ω, Figure 5, Figure 7
2.7 to
3.6 V
0.25
tBBM
Break-Before-Make(7)
RL=50 Ω, CL=5 pF, VID=VMHL=3.3 V,
VUSB= 0.8 V, Figure 9
2.7 to
3.6 V
VS=1 Vpk-pk, RL=50 Ω, f=240 MHz,
Figure 11
2.7 to
3.6 V
-55
dB
VS=400 mVpk-pk, RL=50 Ω, f=240 MHz,
Figure 11
2.7 to
3.6 V
-45
dB
VS=1 Vpk-pk, R=50 Ω, f=240 MHz,
Figure 12
2.7 to
3.6 V
-47
dB
VS=400 mVpk-pk, RL=50 Ω, f=240 MHz,
Figure 12
2.7 to
3.6 V
-45
dB
OIRR(MHL)
Off Isolation(7)
OIRR(USB)
XtalkMHL
XtalkUSB
BW
(Insertion
Loss)
Non-Adjacent
Channel(7) Crosstalk
Differential
-3db Bandwidth(7)
VIN=1 Vpk-pk, MHL Path, RL=50 Ω,
CL=0 Pf, Figure 10, Figure 15
VIN=400 mVpk-pk, USB Path, RL=50 Ω,
CL=0 pF, Figure 10, Figure 16
2.7 to
3.6 V
2
ns
13
FSA3000 — Two-Port, High-Speed, MHL™ Switch
AC Electrical Characteristics
ns
2.46
GHz
1.22
Note:
7. Guaranteed by characterization.
© 2010 Fairchild Semiconductor Corporation
FSA3000 • Rev. 1.0.4
www.fairchildsemi.com
5
Typical values are for VCC=3.3 V and TA=25°C unless otherwise specified.
Symbol
tSK(P)
tJ
Parameter
Condition
VCC (V)
Typ.
Unit
Skew of Opposite Transitions of the
Same Output(8)
CL=5 pF, RL=50 Ω, Figure 8
3.0 to 3.6
6
ps
Total Jitter(8)
RL=50 Ω, CL=5 pf,
tR=tF=500 ps (10-90%) at
480 Mbps, PN7
3.0 to 3.6
15
ps
VCC (V)
Typ.
Unit
Note:
8. Guaranteed by characterization.
MHL AC Electrical Characteristics
Typical values are for VCC=3.3 V and TA=25°C unless otherwise specified.
Symbol
tSK(P)
tJ
Parameter
Condition
Skew of Opposite Transitions of the
Same Output(9)
RPU=50 Ω to VCC, CL=0 pF
3.0 to 3.6 V
6
ps
Total Jitter(9)
f=2.25 Gbps, PN7,
RPU=50 Ω to VCC, CL=0 pF
3.0 to 3.6 V
15
ps
Max.
Unit
FSA3000 — Two-Port, High-Speed, MHL™ Switch
USB High-Speed AC Electrical Characteristics
Note:
9. Guaranteed by characterization.
Capacitance
Typical values are for VCC=3.3 V and TA=25°C unless otherwise specified.
Symbol
CIN
Parameter
Condition
Typ.
VCC=0 V, f=1 MHz
2.1
(10)
VCC=3.3 V, f=240 MHz, Figure 14
4.1
5.0
pF
COFF(USB)
(10)
USB Path Off Capacitance
VCC=3.3 V, f=240 MHz, Figure 13
2.8
3.2
pF
CON(MHL)
MHL Path On Capacitance(10)
VCC=3.3 V, f=240 MHz, Figure 14
2.7
3.0
pF
COFF(MHL)
(10)
VCC=3.3 V, f=240 MHz, Figure 13
1.1
1.5
pF
CON(USB)
Control Pin Input Capacitance
(10)
USB Path On Capacitance
MHL Path Off Capacitance
pF
Note:
10. Guaranteed by characterization, not production tested.
© 2010 Fairchild Semiconductor Corporation
FSA3000 • Rev. 1.0.4
www.fairchildsemi.com
6
Note:
11. HSD refers to the high-speed data on USB or MHL paths.
VON
I Dn(OFF)
NC
HSDn
A
Dn
VSW
VSW
Select
GND
ION
Select
= VO / ION
RO
V Sel =
V Sel =
GND
0 or VCC
GND
0 orV
V cc
**Each switch port is tested separately
Figure 3. On Resistance
Figure 4. Off Leakage
tRISE = 2.5ns
HSDn
tFALL = 2.5ns
Dn
VSW
RL
CL
GND RS
VCC
VOUT
90%
Input – VSEL. /OE
GND
VOH
GND
Output- VOUT
RL , RS and CL are function of application
VOL
environment (see AC Tables for specific values)
CL includes test fixture and stray capacitance
Figure 5. AC Test Circuit Load
90%
VCNTRL-HI
10%
GND
VSel
VCNTRL-HI
90%
tON
50%
0V
tOF F
Figure 6. Turn-On / Turn-Off Waveforms
400mV
+400mV
tPHL
- 400mV
90%
0V
50%
tPLH
10%
90%
tRISE = 500ps
Input
FSA3000 — Two-Port, High-Speed, MHL™ Switch
Test Diagrams
10%
tFALL = 500ps
90%
10%
VOH
Output
50%
50%
Output
VOL
t PHL
Figure 7. Propagation Delay (tRtF – 500 ps)
© 2010 Fairchild Semiconductor Corporation
FSA3000 • Rev. 1.0.4
t PLH
Figure 8. Intra-Pair Skew Test tSK(P)
www.fairchildsemi.com
7
tRISE = 2.5ns
Vcc
HSD n
VSW1
GND
VSW2
10%
0V
VOUT
CL
90%
Vcc/2
Input VSel
Dn
RL
VOUT
GND
GND
0.9*Vout
0.9*Vout
RS
tBBM
VSel
GND
RL , RS and CL are function of application
environment (see AC Tables for specific values)
CL includes test fixture and stray capacitance
Figure 9. Break-Before-Make Interval Timing
Network Analyzer
VS
Network
Analyzer
FSA3000
RS
RS
VIN
RT
VOUT
RT
GND
RS
VS
Network Analyzer
RT
VIN
VSel
VOUT
V IN
VS
GND
GND
V OUT
GND
GND
GND
FSA3000 — Two-Port, High-Speed, MHL™ Switch
Test Diagrams (Continued)
GND
RS and RT are functions of the application
environment (see AC Tables for specific values).
VS, RS and RT are function of application
environment (see AC/DC Tables for values)
RT
GND
Off isolation = 20 Log (V OUT / VIN)
Figure 10. Insertion Loss
Figure 11. Channel Off Isolation
Network Analyzer
NC
RS
V IN
GND
VS
VSel
GND
GND
RT
GND
GND
RS and RT are functions of the application environment
(see AC Tables for specific values).
RT
V OUT
GND
Crosstalk = 20 Log (VOUT / VIN)
Figure 12. Non-Adjacent Channel-to-Channel Crosstalk
HSDn
Capacitance
Meter
S
Capacitance
Meter
S
VSel = 0 or Vcc
V Sel = 0 or Vcc
HSDn
HSDn
Figure 13. Channel Off Capacitance
© 2010 Fairchild Semiconductor Corporation
FSA3000 • Rev. 1.0.4
HSDn
Figure 14. Channel On Capacitance
www.fairchildsemi.com
8
Typical Application
One of the key factors for the FSA3000 in mobile digital
video applications is the small amount of insertion loss
in the received signal as it passes through the switch.
This results in minimal degradation of the received eye.
One of the ways to measure the quality of the high data
rate channels is using balanced ports and 4-port
differential S-parameter analysis, particularly SDD21.
Figure 17 shows a typical mobile application using the
FSA3000 for MHL switching. The FSA3157 is used for
OTG dual-role device implementations where the CBUS
of MHL and the ID pin for USB needs to be switched.
The 3M resistor for MHL_SEL is optional to ensure that
on power up the USB switch path is selected as default.
Bandwidth is measured using the S-parameter SDD21
methodology. Figure 15 shows the bandwidth (GHz) for
the MHL path and Figure 16 shows the bandwidth curve
for the USB path.
Figure 17. Typical Mobile MHL Application
FSA3000 — Two-Port, High-Speed, MHL™ Switch
Insertion Loss
Figure 15. MHL (MDV) Path SDD21 Insertion
Loss Curve
Figure 16. USB Path SDD21 Insertion Loss Curve
© 2010 Fairchild Semiconductor Corporation
FSA3000 • Rev. 1.0.4
www.fairchildsemi.com
9
0.10 C
2.10
2X
A
1.62
B
KEEPOUT ZONE, NO TRACES
OR VIAS ALLOWED
(0.11)
1.12
1.60
PIN1 IDENT IS
2X LONGER THAN
OTHER LINES
0.56
0.10 C
2X
TOP VIEW
(0.35) 10X
(0.25) 10X
0.50
RECOMMENDED LAND PATTERN
0.55 MAX
0.05 C
0.05 C
0.05
0.00
C
(0.20)
0.35
0.25
SIDE VIEW
D
0.65
0.55
DETAIL A
0.35
0.25
4
0.35
0.25
DETAIL A 2X SCALE
0.56
10
(0.29)
(0.15)
(0.36)
1
5
6
9
0.50
FSA3000 — Two-Port, High-Speed, MHL™ Switch
Physical Dimensions
0.25 9X
0.15
1.62
0.35 9X
0.25
0.10
0.05
C A B
C
ALL FEATURES
BOTTOM VIEW
NOTES:
A. PACKAGE CONFORMS TO JEDEC
REGISTRATION MO-255, VARIATION UABD .
B. DIMENSIONS ARE IN MILLIMETERS.
C. DIMENSIONS AND TOLERANCES PER
ASME Y14.5M, 1994.
D. PRESENCE OF CENTER PAD IS PACKAGE
SUPPLIER DEPENDENT. IF PRESENT IT
IS NOT INTENDED TO BE SOLDERED AND
HAS A BLACK OXIDE FINISH.
E. DRAWING FILENAME: MKT-MAC10Arev5.
Figure 18. 10-Lead, MicroPakTM 1.6 x 2.1 mm JEDEC MO255B
Package drawings are provided as a service to customers considering Fairchild components. Drawings may change in any manner
without notice. Please note the revision and/or date on the drawing and contact a Fairchild Semiconductor representative to verify or
obtain the most recent revision. Package specifications do not expand the terms of Fairchild’s worldwide terms and conditions,
specifically the warranty therein, which covers Fairchild products.
Always visit Fairchild Semiconductor’s online packaging area for the most recent package drawings:
http://www.fairchildsemi.com/packaging/.
© 2010 Fairchild Semiconductor Corporation
FSA3000 • Rev. 1.0.4
www.fairchildsemi.com
10
FSA3000 — Two-Port, High-Speed, MHL™ Switch
© 2010 Fairchild Semiconductor Corporation
FSA3000 • Rev. 1.0.4
www.fairchildsemi.com
11