FSA3030 High-Speed USB2.0/Mobile High- Definition Link (MHL ) with Negative Swing Audio
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1 July 2016 FSA3030 High-Speed USB2.0/Mobile High- Definition Link (MHL ) with Negative Swing Audio Features Low On Capacitance: 4.2 pf/5 pf MHL/USB (Typical) Low Power Consumption: 30 μa Maximum Supports MHL Rev. 2.0 MHL Data Rate: 4.0 Gbps Audio Swing: -1.5 V to +1.5 V (Typical) Packaged in 12-Lead UMLP (1.8 x 1.8 mm) Over-Voltage Tolerance (OVT) on all USB Ports Up to 5.25 V without External Components Applications Cell Phones and Digital Cameras Description The FSA3030 is a bi-directional, low-power, high-speed, 3:1, USB2.0, MHL and audio switch. Configured as a double-pole, triple-throw (DP3T) switch, it is optimized for switching between high- or full-speed USB, Mobile High-Definition Link sources (per MHL Rev. 2.0 specification) and negative swing capable audio. The FSA3030 contains special circuitry on the switch I/O pins, for applications where the V CC supply is powered off (V CC=0), that allows the device to withstand an over-voltage condition. This switch is designed to minimize current consumption even when the control voltage applied to the control pins is lower than the supply voltage (V CC). This 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 Package FSA3030UMX LU -40 to +85 C 12-Lead, Ultrathin Molded Leadless Package (UMLP), 1.8 mm x 1.8 mm VBAT Baseband or Application Processor USB_ USB_ USB+ USB- Vcc OTG_ID To USB Battery Charging Block VBUS HDMI to MHL Bridge R L MHL+ R L MHL+ MHL- SEL[0] MHL- 3M Sel0 Sel 1 ID SEL[1] 3M microusb Connector All trademarks are the property of their respective owners. Figure 1. Typical Application FSA3030 Rev. 1.12
2 Analog Symbol USB MHL+ R VCC USB MHL- L Sel1 Sel0 Control Figure 2. Analog Symbol Table 1. Data Switch Select Truth Table SEL1 (1) SEL0 (1) Shunt Function 0 0 Enable / connected to USB+/USB- 0 1 Disable / connected to R/L 1 0 Enable / connected to MHL+/MHL 1 1 Enable / High Impedance 1. Control inputs should never be left floating or unconnected. To guarantee default switch closure to the USB position, the SEL[0:1] pins should be tied to with a weak pull-down resistor (3 MΩ) to minimize static current draw. FSA3030 Rev
3 Pin Configuration V CC MHL- MHL+ SEL0 SEL USB+ V CC Bottom View 4 5 USB- R L MHL+ MHL- SEL1 SEL0 2 1 USB USB- R 4 5 Top Through View L Figure 3. Pin Assignments Figure 4. Top Through View Pin Definitions Pin# Name Description 1 SEL0 Data Switch Select 2 SEL1 Data Switch Select 3 USB+ USB Differential Data (Positive) 4 USB- USB Differential Data (Negative) 5 R Audio Right 6 L Audio Left 7 MHL+ MHL Differential Data (Positive) 8 MHL- MHL Differential Data (Negative) 9 Ground 10 Data Switch Output (Positive) 11 Data Switch Output (Negative) 12 V CC Device Power from System FSA3030 Rev
4 Absolute Maximum Ratings 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 Parameter Min. Max. Unit V CC Supply Voltage V V CNTRL DC Input Voltage (SEL[1:0]) (2) -0.5 V CC V V SW (3) DC Switch I/O Voltage (2) MHL -0.5 V CC USB -0.5 V CC AUDIO I IK DC Input Diode Current -50 ma I OUT I OUTPEAK Switch DC Output Current (Continuous) Switch DC Output Peak Current (Pulsed at 1 ms Duration, <10% Duty Cycle) USB 60 ma MHL 60 ma AUDIO 60 ma USB 150 ma MHL 150 ma AUDIO 150 ma T STG Storage Temperature C MSL Moisture Sensitivity Level: JEDEC J-ST020A 1 ESD IEC , Level 4, for / and V CC Pins (4) Contact 8 IEC , Level 4, for / and V CC Pins (4) Air 15 Human Body Model, JEDEC: JESD22-A114 All Pins 3.5 Charged Device Model, JESD22-C101 2 Notes: 2. The input and output negative ratings may be exceeded if the input and output diode current ratings are observed. 3. V SW refers to analog data switch paths (USB, MHL, and audio). 4. Testing performed in a system environment using TVS diodes. V kv 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 Parameter Min. Max. Unit V CC Supply Voltage V t RAMP(VCC) Power Supply Slew Rate µs/v JA Thermal Resistance 230 C/W V CNTRL Control Input Voltage (SEL[1:0]) (5) V V SW(USB) Switch I/O Voltage (USB Switch Path) V V SW(MHL) Switch I/O Voltage (MHL Switch Path) V V SW(AUD) Switch I/O Voltage (Audio Switch Path) V T A Operating Temperature C 5. The control inputs must be held HIGH or LOW; they must not float. FSA3030 Rev
5 DC Electrical Characteristics All typical value are at T A=25 C unless otherwise specified. Symbol Parameter Condition V CC (V) T A =- 40 C to +85 C Min. Typ. Max. V IK Clamp Diode Voltage I IN=-18 ma V V IH V IL I IN I OZ(MHL) I OZ(USB) I CL(MHL) I CL(USB) I CL(AUD) I OFF R ON(USB) R ON(MHL) R ON(Audio) R ON(MHL) R ON(USB) R ONF(MHL) Control Input Voltage High SEL[1:0] Control Input Voltage Low SEL[1:0] Control Input Leakage SEL[1:0] Off-State Leakage for Open MHL Data Paths Off-State Leakage for Open USB Data Paths On-State Leakage for Closed MHL Data Paths (6) On-State Leakage for Closed USB Data Paths (6) On-State Leakage for Closed (6) AUDIO Data Path Power-Off Leakage Current (All I/O Ports) HS Switch On Resistance (USB to D Path) HS Switch On Resistance (MHL to D Path) Audio Switch On Resistance (R/L Path) Difference in R ON Between MHL Positive-Negative Difference in R ON Between USB Positive-Negative Flatness for R ON MHL Path R ONFA(AUDIO) Flatness for R ON Audio Path V SW(USB/MHL)=0 to 3.6 V, V SW(AUD)=0 to 3.0 V, V CNTRL=0 to V CC V SW=1.65 MHL 3.45 V SEL[1:0]=V CC V SW=0 USB 3.6 V SEL[1:0]=V CC V SW=1.65 MHL 3.45 V, SEL0=, SEL1=V CC, Other Side of Switch Float V SW=0 USB 3.6 V SEL[1:0]=, Other Side of Switch Float V SW=-1.5 R/L 1.5 V SEL1=, SEL0=V CC, Other Side of Switch Float VSW(USB/MHL)=0 to 3.6 V, VSW(AUD)=0 to 3.0 V, Figure 5 V SW=0.4 V, I ON=-8 ma, SEL[1:0]=, Figure 6 V SW=V CC-1050 mv, SEL0=, SEL1=V CC I ON=-8 ma, Figure 6 V SW= -1.5 V to 1.5 V, SEL1=, SEL0=V CC, I ON=-24 ma, Figure 6 V SW=V CC-1050 mv, SEL0=, SEL1=V CC, I ON=-8 ma, Figure 6, V SW=0.4 V, I ON= -8 ma, SEL[1:0]=, Figure 6 V SW=1.65 to 3.45V, SEL0=, SEL1=V CC, I ON=-8 ma, Figure 6 V SW=-1.5 V to 1.5 V, SEL1=, SEL0=V CC, I ON=-24 ma, Figure 6 FSA3030 Rev to to 4.50 Unit 1.0 V 0.5 V µa µa µa µa µa µa µa R SH Shunt Resistance Ω I CC Quiescent Current V CNTRL=0 or 4.5 V, I OUT= µa I CCT Delta Increase in Quiescent Current per Control Pin V CNTRL=1.65 V, I OUT= V CNTRL=2.5 V, I OUT= For this test, the data switch is closed with the respective switch pin floating. µa
6 AC Electrical Characteristics All typical values are for V CC=3.3 V and T A=25 C unless otherwise specified. Symbol Parameter Condition V CC (V) t ONUSB t OFFUSB t ONAUD t OFFAUD t ONMHL t OFFMHL USB Turn-On Time, SEL[1:0] to Output USB Turn-Off Time, SEL[1:0] to Output AUDIO Turn-On Time, SEL[1:0] to Output AUDIO Turn-Off Time, SEL[1:0] to Output MHL Turn-On Time, SEL[1:0] to Output MHL Turn-Off Time, SEL[1:0] to Output R L=50 Ω, C L=5 pf, V SW(USB)=0.8 V, V SW(MHL)=3.3 V, V SW(AUD)=1.5 V, Figure 7, Figure 8 R L=50 Ω, C L=5 pf, V SW(USB)=0.8 V, V SW(MHL)=3.3 V, V SW(AUD)=1.5 V, Figure 7, Figure 8 R L=50 Ω, C L=5 pf, V SW(USB)=0.8 V, V SW(MHL)=3.3 V, V SW(AUD)=1.5 V, Figure 7, Figure 8 R L=50 Ω, C L=5p F, V SW(USB)=0.8 V, V SW(MHL)=3.3 V, V SW(AUD)=1.5 V, Figure 7, Figure 8 R L=50 Ω, C L=5 pf, V SW(USB)=0.8 V, V SW(MHL)=3, V SW(AUD)=1.5 V, Figure 7, Figure 8 R L=50 Ω, C L=5 pf, V SW(USB)=0.8 V, V SW(MHL)=3.3 V, V SW(AUD)=1.5 V, Figure 7, Figure 8 (7) CL=5 pf, RL=50 Ω, Figure 7, t PD Propagation Delay Figure 9 (7) RL=50 Ω, CL=5 pf, VAUD=1.5 V, t BBM Break-Before-Make V MHL=3.3 V, V USB=0.8 V, Figure 10 O IRR(MHL) O IRR(USB) Xtalk MHL Xtalk USB Xtalk AUD THD BW Off Isolation (7) Non-Adjacent Channel (7) Crosstalk Total Harmonic Distortion (7) S DD21 Differential -3 db Bandwidth (7) 7. Guaranteed by characterization. V S=1 V pk-pk, R L=50 Ω, f=240 MHz, Figure 11 V S=400 mv pk-pk, R L=50 Ω, f=240 MHz, Figure 11 V S=1 V pk-pk, R L=50 Ω, f=240 MHz, Figure 12 V S=400 mv pk-pk, R L=50 Ω, f=240 MHz, Figure 12 V S=100 mv RMS, R L=32 Ω, f=20 khz, Figure 12 R T=32 Ω, V SW=2 V pk-pk, f=20 Hz to 20 khz, V BIAS=0 V V IN=1 V pk-pk, Common Mode Voltage =V CC V, MHL Path, R L=50 Ω, C L=0 pf, Figure 13 V IN=400 mv pk-pk, Common Mode Voltage=0.2 V, USB Path, R L=50 Ω, C L=0 pf, Figure 13 T A =- 40 C to +85 C Unit Min. Typ. Max. 2.5 to ns 2.5 to ns 2.5 to ns 2.5 to ns 2.5 to ns 2.5 to ns 2.5 to ns 2.5 to ns 2.5 to db 2.5 to db 2.5 to db 2.5 to db 2.5 to db % 2.5 to GHz AUDIO Path, R L=50 Ω, C L=0 pf 50 MHz FSA3030 Rev
7 USB High-Speed AC Electrical Characteristics All typical value are at T A=25 C unless otherwise specified. Symbol Parameter Condition V CC (V) Typ. Unit t SK(P) Skew of Opposite Transitions of the Same (8) CL=5 pf, RL=50 Ω, Figure to ps Output t J Total Jitter (8) t R=t F=500 ps (10-90%) at R L=50 Ω, C L=5 pf, 480 Mbps, PN7 8. Guaranteed by characterization. 3.0 to ps MHL AC Electrical Characteristics All typical value are at T A=25 C unless otherwise specified. Symbol Parameter Condition V CC (V) Typ. Unit t SK(P) Skew of Opposite Transitions of the Same (9) RPU=50 to VCC, CL=0 pf 3.0 to ps Output (9) f=2.25 Gbps, PN7, t J Total Jitter R PU=50 to V CC, C L=0 pf 9. Guaranteed by characterization. 3.0 to ps Capacitance All typical value are at T A=25 C unless otherwise specified. Symbol Parameter Condition Typ. Unit C IN Control Pin Input Capacitance (10) V CC=0 V, f=1 MHz 1.5 C ON(USB) USB Path On Capacitance (10) V CC=3.3 V, f=240 MHz, Figure C OFF(USB) USB Path Off Capacitance (10) V CC=3.3 V, f=240 MHz, Figure C ON(MHL) MHL Path On Capacitance (10) V CC=3.3 V, f=240 MHz, Figure C OFF(MHL) MHL Path Off Capacitance (10) V CC=3.3 V, f=240 MHz, Figure C ON(AUD) Audio Path On Capacitance (10) V CC=3.3 V, f=1 MHz, Figure C OFF(AUD) Audio Path Off Capacitance (10) V CC=3.3 V, f=1 MHz, Figure Guaranteed by characterization. pf FSA3030 Rev
8 Test Diagrams V ON NC I Dn(OFF) A Select V Sel = 0 orvcc **Each switch port is tested separately V SW or R/L V SW D n R ON = V ON / I ON I ON Select V SEL = 0 or Vcc Figure 5. Off Leakage Figure 6. On Resistance or R/L t R IS E= 2.5 ns t F A LL = 2.5 n s V SW V SW or R/L D n C L V OUT V C C In put V SEL1, V SEL G ND 2 10 % 90 % 90% V CNTRL-HI V CNTRL-HI 10% R S V OH 90 % 90% O utpu t- V OUT V SEL R SW and C L are functions of the application environment (see AC Tables for specific values) V OL t O N t O F F Figure 7. AC Test Circuit Load Figure 8. Turn-On / Turn-Off Waveforms Figure 9. Propagation Delay (t Rt F 500ps) 11. refers to the high-speed data USB or MHL paths. FSA3030 Rev
9 Test Diagrams t RISE = 2.5ns V SW1 V SW2 R S Dn C L R L V OUT Vcc Input - V Sel 10% 0V V OUT 0.9*Vout 90% Vcc/2 t BBM 0.9*Vout V Sel R L, R S and C L are function of application environment (see AC Tables for specific values) C L includes test fixture and stray capacitance Figure 10. Break-Before-Make Interval Timing RS VIN Aggressor VS 50Ω Victim RT VOUT VNA Source RS VIN Aggressor Control VNA Return VS 50Ω Victim RT VOUT V S, R S and R T are functions of the application environment (see AC/DC Tables for values). Off Isolation = 20 Log (V OUT - V IN ) Figure 11. Channel Off Isolation (SDD21) R S Source V IN Aggressor V S Measure RT V OUT Victim 50Ω VNA Control R S Source V IN Aggressor V S Measure RT V OUT Victim 50Ω VS, RS and RT are functions of the application environment (see AC/DC Tables for values). Off Isolation = 20 Log (VOUT - VIN) Figure 12. Non-Adjacent Channel-to-Channel Crosstalk (SDD21) FSA3030 Rev
10 Test Diagrams V S R S V IN R T V OUT VNA Source Control VNA Return V S R S V IN R T V OUT V S, R S and R T are functions of the application environment (see AC/DC Tables for values). Figure 13. Insertion Loss (SDD21) t RISE= 500ps t FALL = 500ps +400mV 90% 90% -400mV 10% 0V 10% Output t PHL t PLH Figure 14. Intra-Pair Skew Test t SK(P) Capacitance Meter S V Sel = 0 or V cc Capacitance Meter S V Sel = 0 or V cc Figure 15. Channel On Capacitance Figure 16. Channel Off Capacitance FSA3030 Rev
11 Functional Description Insertion Loss One of the key factors for using the FSA3030 in mobile digital video applications is the small amount of insertion loss experienced by 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 four-port differential S-parameter analysis, particularly SDD21. Bandwidth is measured using the S-parameter SDD21 methodology. Figure 18. USB Path SDD21 Insertion Loss Curve Typical Applications Figure 19 shows the FSA3030 utilizing the V BAT connection. The 3M resistors are used to ensure, for manufacturing test via the micro-usb connector, that the FSA3030 configures for connectivity to the baseband or application processor. VBAT Figure 17. MHL Path SDD21 Insertion Loss Curve Baseband or Application Processor USB_ USB_ USB+ USB- Vcc OTG_ID To USB Battery Charging Block VBUS HDMI to MHL Bridge R L MHL+ R L MHL+ MHL- SEL[0] MHL- 3M Sel0 Sel 1 ID SEL[1] 3M microusb Connector Figure 19. MHL Path SDD21 Insertion Loss Curve Table 2. Product-Specific Package Dimensions Description Nominal Values (mm) Overall Height 0.50 Package Standoff Lead Thickness 0.15 Lead Width 0.20 Lead Length 0.40 Lead Pitch 0.40 Body Length (X) Min: 1.70, Nom: 1.80, Max: 1.90 Body Width (Y) Min: 1.70, Nom: 1.80, Max: 1.90 Lead One Nominal Length 0.40 Lead One Nominal Width 0.20 Lead One Nominal Bevel Length 0.10 Lead One Nominal Bevel Depth 0.10 Lead One Nominal Tip Non-Bevel Width 0.10 FSA3030 Rev
12 2X 0.05 C 1.80 A B (11X) PIN#1 IDENT C TOP VIEW 0.50± C 2X 0.15±0.05 (12X) 0.20 RECOMMENDED LAND PATTERN 0.08 C 0.425± ±0.025 SEATING PLANE SIDE VIEW C 0.20± DETAIL A SCALE : 2X (11X) 0.40±0.05 DETAIL A PIN#1 IDENT ± BOTTOM VIEW 9 (0.20)4X ± ±0.05(12X) 0.10 C A B 0.05 C NOTES: A. PACKAGE DOES NOT CONFORM TO ANY JEDEC STANDARD. B. DIMENSIONS ARE IN MILLIMETERS. C. DIMENSIONS AND TOLERANCES PER ASME Y14.5M, D. LAND PATTERN RECOMMENDATION IS EXISTING INDUSTRY LAND PATTERN. E. DRAWING FILENAME: MKT-UMLP12Arev5. LEAD OPTION 1 SCALE : 2X PACKAGE EDGE LEAD OPTION 2 SCALE : 2X
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14 Mouser Electronics Authorized Distributor Click to View Pricing, Inventory, Delivery & Lifecycle Information: Fairchild Semiconductor: FSA3030UMX
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