19-2208; Rev 0; 10/01 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers Applications Features 16 16 Nonblocking Matrix with Buffered Inputs and Outputs Operates from 3V, 5V, or +5V Supplies Individually Programmable Output Buffer Gain (AV = +1V/V or +2V/V) High-Impedance Output Disable for Wired-OR Connections 0.1dB Gain Flatness to 14MHz -62dB Crosstalk, -110dB Isolation at 6MHz 0.02%/0.12 Differential Gain/Differential Phase Error Low 195mW Power Consumption (0.76mW per Point) Ordering Information PART TEMP. RANGE PIN-PACKAGE MAX4355ECQ -40C to +85C 100 TQFP Pin Configuration appears at end of data sheet. Security Systems Video Routing Video-on-Demand Systems Functional Diagram Typical Operating Circuit MAX4355 AV* IN1 CAMERAS IN0 MONITOR IN1 OUT1 MAX4355 MONITOR AV* 16 x 16 SWITCH MATRIX OUT0 IN2 AV* IN15 AV* RESET POWER-ON RESET THERMAL SHUTDOWN DISABLE ALL OUTPUTS 256 16 OUT0 ENABLE/DISABLE IN0 OUT15 MONITOR DIN SCLK UPDATE CE SERIAL INTERFACE OUT2 OUT15 16 DECODE LOGIC IN15 OUT1 LATCHES VCC VEE AGND VDD DGND MATRIX REGISTER 96 BITS DOUT UPDATE REGISTER 16 BITS AOUT A0-A3 MODE *AV = +1V/V OR +2V/V SPI and QSPI are trademarks of Motorola, Inc. ________________________________________________________________ Maxim Integrated Products For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at 1-888-629-4642, or visit Maxim's website at www.maxim-ic.com. 1 MAX4355 General Description The MAX4355 is a 16 16 highly integrated video crosspoint switch matrix with input and output buffers. This device operates from dual 3V to 5V supplies or from a single +5V supply. Digital logic is supplied from an independent single +2.7V to +5.5V supply. All inputs and outputs are buffered, with all outputs able to drive standard 75 reverse-terminated video loads. The switch matrix configuration and output buffer gain are programmed through an SPITM/QSPITM-compatible, 3-wire serial interface and initialized with a single update signal. The unique serial interface operates in two modes facilitating both fast updates and initialization. On power-up, all outputs are initialized in the disabled state to avoid output conflicts in large-array configurations. Superior flexibility, high integration, and space-saving packaging make this nonblocking switch matrix ideal for routing video signals in security and video-ondemand systems. The MAX4355 is available in a 100-pin TQFP package and specified over an extended -40C to +85C temperature range. MAX4355 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers ABSOLUTE MAXIMUM RATINGS Analog Supply Voltage (VCC - VEE) .....................................+11V Digital Supply Voltage (VDD - DGND) ...................................+6V Analog Supplies to Analog Ground (VCC - AGND) and (AGND - VEE) ......................................+6V Analog Ground to Digital Ground .........................-0.3V to +0.3V IN_ Voltage Range .......................... (VCC + 0.3V) to (VEE - 0.3V) OUT_ Short-Circuit Duration to AGND, VCC, or VEE ......Indefinite SCLK, CE, UPDATE, MODE, A_, DIN, DOUT, RESET, AOUT.........................(VDD + 0.3V) to (DGND - 0.3V) Current into Any Analog Input Pin (IN_) ...........................50mA Current into Any Analog Output Pin (OUT_).....................75mA Continuous Power Dissipation (TA = +70C) 100-Pin TQFP (derate 22.2mW/C above +70C).....1777mW Operating Temperature Range ...........................-40C to +85C Junction Temperature ......................................................+150C Storage Temperature Range .............................-65C to +150C Lead Temperature (soldering, 10s) ................................ +300C Stresses beyond those listed under "Absolute Maximum Ratings" may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. DC ELECTRICAL CHARACTERISTICS--DUAL SUPPLIES 5V (VCC = +5V, VEE = -5V, VDD = +5V, AGND = DGND = 0, VIN_ = 0, RL = 150 to AGND, and TA = TMIN to TMAX, unless otherwise noted. Typical values are at TA = +25C.) PARAMETER Operating Supply Voltage Range Logic-Supply Voltage Range Gain (Note 1) Gain Matching (Channel to Channel) 2 SYMBOL VCC VEE CONDITIONS Guaranteed by PSRR test VDD to DGND AV MIN TYP MAX UNITS 4.5 10.5 V 2.7 5.5 V (VEE + 2.5V) < VIN_ < (VCC - 2.5V), AV = +1V/V, RL = 150 0.97 0.995 1 (VEE + 2.5V) < VIN_ < (VCC - 2.5V), AV = +1V/V, RL = 10k 0.99 0.999 1 (VEE + 3.75V) < VIN_ < (VCC - 3.75V), AV = +2V/V, RL = 150 1.92 1.996 2.08 (VEE + 3.75V) < VIN_ < (VCC - 3.75V), AV = +2V/V, RL = 10k 1.94 2.008 2.06 (VEE + 1V) < VIN_ < (VCC - 1.2V), AV = +1V/V, RL = 10k 0.95 0.994 1 RL = 10k 0.5 1.5 RL = 150 0.5 2 V/V _______________________________________________________________________________________ % 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers (VCC = +5V, VEE = -5V, VDD = +5V, AGND = DGND = 0, VIN_ = 0, RL = 150 to AGND, and TA = TMIN to TMAX, unless otherwise noted. Typical values are at TA = +25C.) PARAMETER Temperature Coefficient of Gain SYMBOL CONDITIONS TCAV Input Bias Current Output Offset Voltage RL = 150 VEE + 2.5 VCC 2.5 RL = 10k VEE + 3 VCC 3.1 RL = 150 VEE + 3.75 VCC 3.75 RL = 10k VEE + 1 VCC 1.2 V RL = 150 VEE + 2.5 VCC 2.5 V 11 A V VOUT VOFFSET 4 (VEE + 1V) < VIN_ < (VCC - 1.2V) 10 AV = +1V/V 5 20 AV = +2V/V 10 40 Sinking or sourcing, RL = 1 40 mA Output Short-Circuit Current ISC Enabled Output Impedance ZOUT (VEE + 1V) < VIN_ < (VCC - 1.2V) 0.2 IOD (VEE + 1V) < VOUT_ < (VCC - 1.2V) 0.004 Output Leakage Current, Disable Mode DC Power-Supply Rejection Ratio PSRR ICC 4.5V < (VCC - VEE) < 10.5V RL = Quiescent Supply Current IEE RL = Outputs enabled, TA = +25C 60 M 1 70 100 Outputs enabled mV A dB 150 175 Outputs disabled 55 75 Outputs enabled, TA = +25C 95 150 Outputs enabled Outputs disabled IDD ppm/C VCC 1.2 VIN_ RIN_ UNITS VEE +1 IB Input Resistance MAX RL = 10k AV = +2V/V Output Voltage Range TYP 10 AV = +1V/V Input Voltage Range MIN mA 175 50 75 4 8 _______________________________________________________________________________________ 3 MAX4355 DC ELECTRICAL CHARACTERISTICS--DUAL SUPPLIES 5V (continued) MAX4355 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers DC ELECTRICAL CHARACTERISTICS--DUAL SUPPLIES 3V (VCC = +3V, VEE = -3V, VDD = +3V, AGND = DGND = 0, VIN_ = 0, RL = 150 to AGND, and TA = TMIN to TMAX, unless otherwise noted. Typical values are at TA = +25C.) PARAMETER SYMBOL Operating Supply Voltage Range VCC VEE Logic-Supply Voltage Range VDD to DGND Gain (Note 1) Guaranteed by PSRR test Input Bias Current Input Resistance Output Offset Voltage 4 MAX UNITS 4.5 10.5 V 2.7 5.5 V 0.94 0.983 1 (VEE + 1V) < VIN_ < (VCC - 1.2V), AV = +1V/V, RL = 10k 0.96 0.993 1 V/V (VEE + 2V) < VIN_ < (VCC - 2.1V), AV = +2V/V, RL = 150 1.92 1.985 2.08 (VEE + 2V) < VIN_ < (VCC - 2.1V), AV = +2V/V, RL = 10k 1.94 2.000 2.06 RL = 10k 0.5 1.5 RL = 150 0.5 2 TCAV 10 VEE + 1 VCC 1.2 RL = 150 VEE + 1 VCC 1.2 RL = 10k VEE + 2 VCC 2.1 RL = 150 VEE + 2 VCC 2.1 RL = 10k VEE + 1 VCC 1.2 RL = 150 VEE + 1 VCC 1.2 VIN_ V VOUT V IB RIN VOFFSET % ppm/C RL = 10k AV = +2V/V Output Voltage Range TYP (VEE + 1V) < VIN_ < (VCC - 1.2V), AV = +1V/V, RL = 150 AV = +1V/V Input Voltage Range MIN AV Gain Matching (Channel to Channel) Temperature Coefficient of Gain CONDITIONS 4 11 (VEE + 1V) < VIN_ < (VCC - 1.2V) 10 AV = +1V/V 5 20 AV = +2V/V 10 40 _______________________________________________________________________________________ A M mV 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers (VCC = +3V, VEE = -3V, VDD = +3V, AGND = DGND = 0, VIN_ = 0, RL = 150 to AGND, and TA = TMIN to TMAX, unless otherwise noted. Typical values are at TA = +25C.) PARAMETER SYMBOL Output Short-Circuit Current ISC Enabled Output Impedance ZOUT Output Leakage Current, Disable Mode DC Power-Supply Rejection Ratio IOD PSRR ICC Quiescent Supply Current IEE CONDITIONS MIN Sinking or sourcing, RL = 1 (VEE + 1V) < VIN_ < (VCC - 1.2V) (VEE + 1V) < VOUT_ < (VCC - 1.2V) 4.5V < (VCC - VEE) < 10.5V RL = RL = TYP mA 0.2 1 75 Outputs enabled 80 Outputs disabled 40 Outputs enabled 75 Outputs disabled 35 IDD UNITS 40 0.004 60 MAX A dB mA 4 DC ELECTRICAL CHARACTERISTICS--SINGLE SUPPLY +5V (VCC = +5V, VEE = 0, VDD = +5V, AGND = DGND = 0, VIN_ = +1.75V, AV = +1V/V, RL = 150 to AGND, and TA = TMIN to TMAX, unless otherwise noted. Typical values are at TA = +25C.) PARAMETER Operating Supply Voltage Range Logic-Supply Voltage Range Gain (Note 1) SYMBOL VCC Gain Matching (Channel to Channel) Input Voltage Range Guaranteed by PSRR test VDD to DGND AV Temperature Coefficient of Gain CONDITIONS MIN MAX UNITS 4.5 5.5 V 2.7 5.5 V (VEE + 1V) < VIN < (VCC - 2.5V), AV = +1V/V, RL = 150 0.94 0.995 1 (VEE + 1V) < VIN < (VCC - 1.2V), AV = +1V/V, RL = 10k 0.94 0.995 1 RL = 10k 0.5 RL = 150 0.5 3 3 V/V TCAV VIN TYP ppm/ C 10 RL = 10k VEE +1 VCC - 1.2 RL = 150 VEE +1 VCC - 2.5 AV = +1V/V % V _______________________________________________________________________________________ 5 MAX4355 DC ELECTRICAL CHARACTERISTICS--DUAL SUPPLIES 3V (continued) MAX4355 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers DC ELECTRICAL CHARACTERISTICS--SINGLE SUPPLY +5V (continued) (VCC = +5V, VEE = 0, VDD = +5V, AGND = DGND = 0, VIN_ = +1.75V, AV = +1V/V, RL = 150 to AGND, and TA = TMIN to TMAX, unless otherwise noted. Typical values are at TA = +25C.) PARAMETER Output Voltage Range Input Bias Current Input Resistance Output Offset Voltage Output Short-Circuit Current Enabled Output Impedance Output Leakage Current, Disable Mode DC Power-Supply Rejection Ratio SYMBOL RIN VOFFSET ISC ZOUT IOD PSRR IEE TYP MAX AV = +1V/V, RL = 10k VCC - 1.2 AV = +1V/V, RL = 150 VEE +1 VCC - 2.5 IB IDD 6 MIN VEE +1 VOUT ICC Quiescent Supply Current CONDITIONS 4 VEE + 1V < VIN_ < VCC - 1.2V 10 AV = +1V/V Sinking or sourcing, RL = 1 10 35 (VEE + 1V) < VIN_ < (VCC - 1.2V) 0.2 (VEE + 1V) < VOUT_ < (VCC - 1.2V) 4.5V < (VCC - VEE) < 5.5V RL = RL = 11 0.004 TA = +25C to +85C 50 TA = -40C to +85C 35 65 Outputs enabled, TA = +25C 80 Outputs disabled 35 Outputs enabled, TA = +25C 75 Outputs disabled 30 4 _______________________________________________________________________________________ UNITS V A M 40 mV mA 1 A dB mA 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers (V CC - V EE) = +4.5V to +10.5V, V DD = +2.7V to +5.5V, AGND = DGND = 0, V IN _ = 0, R L = 150 to AGND, and TA = TMIN to TMAX, unless otherwise noted. Typical values are at TA = +25C.) (Note 2) PARAMETER Input Voltage High Level Input Voltage Low Level Input Current High Level Input Current Low Level Output Voltage High Level Output Voltage Low Level Output Current High Level Output Current Low Level SYMBOL VIH VIL CONDITIONS VDD = +5.0V 3 VDD = +3V 2 0.6 VI < 1V IOL Excluding RESET -1 0.01 RESET -30 -20 Excluding RESET -1 0.01 -300 -235 ISOURCE = 1mA, VDD = +5V 4.7 4.9 ISOURCE = 1mA, VDD = +3V 2.7 2.9 RESET UNITS V VDD = +3V IIL IOH MAX 0.8 VI > 2V VOL TYP VDD = +5.0V IIH VOH MIN 1 1 0.1 0.3 ISINK = 1mA, VDD = +3V 0.1 0.3 1 4 VDD = +3V, VO = +2.7V 1 8 VDD = +5V, VO = +0.1V 1 4 VDD = +3V, VO = +0.3V 1 8 A A V ISINK = 1mA, VDD = +5V VDD = +5V, VO = +4.9V V V mA mA AC ELECTRICAL CHARACTERISTICS--DUAL SUPPLIES 5V (VCC = +5V, VEE = -5V, VDD = +5V, AGND = DGND = 0, VIN_ = 0, RL = 150 to AGND, and TA = +25C, unless otherwise noted.) PARAMETER SYMBOL CONDITIONS Small-Signal -3dB Bandwidth BWSS VOUT = 20mVp-p Medium-Signal -3dB Bandwidth BWMS VOUT_ = 200mVp-p Large-Signal -3dB Bandwidth BWLS VOUT_ = 2Vp-p Small-Signal 0.1dB Bandwidth BW0.1dB-SS VOUT = 20mVp-p Medium-Signal 0.1dB Bandwidth BW0.1dB-MS VOUT_ = 200mVp-p Large-Signal 0.1dB Bandwidth BW0.1dB-LS VOUT_ = 2Vp-p Slew Rate SR MIN TYP AV = +1V/V 110 AV = +2V/V 78 AV = +1V/V 80 AV = +2V/V 75 AV = +1V/V 40 AV = +2V/V 50 AV = +1V/V 14 AV = +2V/V 11 AV = +1V/V 14 AV = +2V/V 11 AV = +1V/V 14 AV = +2V/V 11 VOUT_ = 2V step, AV = +1V/V 150 VOUT_ = 2V step, AV = +2V/V 150 MAX UNITS MHz MHz MHz MHz MHz MHz V/s _______________________________________________________________________________________ 7 MAX4355 LOGIC-LEVEL CHARACTERISTICS MAX4355 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers AC ELECTRICAL CHARACTERISTICS--DUAL SUPPLIES 5V (continued) (VCC = +5V, VEE = -5V, VDD = +5V, AGND = DGND = 0, VIN_ = 0, RL = 150 to AGND, AV = +1V/V, and TA = +25C, unless otherwise noted.) PARAMETER Settling Time SYMBOL tS 0.1% CONDITIONS VOUT_ = 0 to 2V step MIN TYP AV = +1V/V 60 AV = +2V/V 60 MAX UNITS ns Switching Transient (Glitch) (Note 3) AV = +1V/V 50 AV = +2V/V 45 AC Power-Supply Rejection Ratio f = 100kHz 70 f = 1MHz 68 Differential Gain Error (Note 4) RL = 1k 0.002 RL = 150 0.02 Differential Phase Error (Note 4) RL = 1k 0.02 RL = 150 0.12 Crosstalk, All Hostile f = 6MHz -62 Off-Isolation, Input to Output f = 6MHz -110 dB 73 VRMS 5 pF 3 pF 30 pF Input Noise Voltage Density en Input Capacitance CIN Disabled Output Capacitance BW = 6MHz Amplifier in disable mode Capacitive Load at 3dB Output Peaking Output Impedance ZOUT f = 6MHz Output enabled 3 Output disabled 4k mV dB % degrees dB AC ELECTRICAL CHARACTERISTICS--DUAL SUPPLIES 3V (VCC = +3V, VEE = -3V, VDD = +3V, AGND = DGND = 0, VIN_= 0, RL = 150 to AGND, AV = +1V/V, and TA = +25C, unless otherwise noted.) PARAMETER SYMBOL CONDITIONS AV = +1V/V VOUT_ = 20mVp-p AV = +2V/V Small-Signal -3dB Bandwidth BWSS Medium-Signal -3dB Bandwidth BWMS VOUT_ = 200mVp-p Large-Signal -3dB Bandwidth BWLS VOUT_ = 2Vp-p Small-Signal 0.1dB Bandwidth BW0.1dB-SS VOUT_ = 20mVp-p Medium-Signal 0.1dB Bandwidth BW0.1dB-MS VOUT_ = 200mVp-p Large-Signal 0.1dB Bandwidth BW0.1dB-LS VOUT_ = 2Vp-p 8 MIN TYP 110 70 AV = +1V/V 110 AV = +2V/V 70 AV = +1V/V 32 AV = +2V/V 38 AV = +1V/V 12 AV = +2V/V 12 AV = +1V/V 12 AV = +2V/V 12 AV = +1V/V 12 AV = +2V/V 12 _______________________________________________________________________________________ MAX UNITS MHz MHz MHz MHz MHz MHz 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers (VCC = +3V, VEE = -3V, VDD = +3V, AGND = DGND = 0, VIN_ = 0, RL = 150 to AGND, AV = +1V/V, and TA = +25C, unless otherwise noted.) PARAMETER Slew Rate SYMBOL SR Settling Time tS 0.1% CONDITIONS MIN TYP VOUT_ = 2V step, AV = +1V/V 125 VOUT_ = 2V step, AV = +2V/V 125 VO = 0 to 2V step AV = +1V/V 60 AV = +2V/V 60 MAX UNITS V/s ns Switching Transient (Glitch) (Note 3) AV = +1V/V 20 AV = +2V/V 20 AC Power-Supply Rejection Ratio f = 100kHz 72 f = 1MHz 71 Differential Gain Error (Note 4) RL = 1k 0.02 RL = 150 0.15 Differential Phase Error (Note 4) RL = 1k 0.05 RL = 150 0.2 Crosstalk, All Hostile f = 6MHz -63 f = 6MHz -112 dB 73 VRMS 5 pF 3 pF 30 pF Off-Isolation, Input to Output Input Noise Voltage Density Input Capacitance en BW = 6MHz CIN_ Disabled Output Capacitance Amplifier in disable mode Capacitive Load at 3dB Output Peaking Output Impedance ZOUT f = 6MHz Output enabled 3 Output disabled 4k mV dB % degrees dB _______________________________________________________________________________________ 9 MAX4355 AC ELECTRICAL CHARACTERISTICS--DUAL SUPPLIES 3V (continued) MAX4355 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers AC ELECTRICAL CHARACTERISTICS--SINGLE SUPPLY +5V (VCC = +5V, VEE = 0, VDD = +5V, AGND = DGND = 0, VIN_ = 1.75V, RL = 150 to AGND, AV = +1V/V, and TA = +25C, unless otherwise noted.) PARAMETER Small-Signal -3dB Bandwidth Medium-Signal -3dB Bandwidth Large-Signal -3dB Bandwidth Small-Signal 0.1dB Bandwidth Medium-Signal 0.1dB Bandwidth Large-Signal 0.1dB Bandwidth Slew Rate Settling Time SYMBOL CONDITIONS MIN TYP MAX UNITS BWSS VOUT_ = 20mVp-p 100 MHz BWMS VOUT_ = 200mVp-p 100 MHz BWLS VOUT_ = 1.5Vp-p 40 MHz BW0.1dB-SS VOUT_ = 20mVp-p 10 MHz BW0.1dB-MS VOUT_ = 200mVp-p 12 MHz BW0.1dB-LS VOUT_ = 1.5Vp-p 14 MHz VOUT_ = 2V step, AV = +1V/V 100 V/s VOUT_ = 0 to 2V step 60 ns 25 mV SR tS 0.1% Switching Transient (Glitch) AC Power-Supply Rejection Ratio f = 100kHz 70 f = 1MHz 69 Differential Gain Error (Note 4) RL = 1k 0.1 RL = 150 0.2 Differential Phase Error (Note 4) RL = 1k 0.05 RL = 150 0.2 Crosstalk, All Hostile f = 6MHz -63 dB f = 6MHz -110 dB 73 VRMS 5 pF 3 pF 30 pF Off-Isolation, Input to Output Input Noise Voltage Density Input Capacitance en BW = 6MHz CIN_ Disabled Output Capacitance Amplifier in disable mode Capacitive Load at 3dB Output Peaking Output Impedance 10 ZOUT f = 6MHz Output enabled 3 Output disabled 4k ______________________________________________________________________________________ dB % degrees 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers ((VCC - VEE) = +4.5V to +10.5V, VDD = +2.7V to +5.5V, DGND = AGND = 0, VIN_ = 0 for dual supplies, VIN_ = +1.75V for single supply, RL = 150 to AGND, CL = 100pF, AV = +1V/V, and TA = TMIN to TMAX, unless otherwise noted. Typical values are at TA = +25C.) TYP MAX UNITS Delay: UPDATE to Video Out PARAMETER SYMBOL tPdUdVo VIN = 0.5V step CONDITIONS MIN 200 450 ns Delay: UPDATE to AOUT tPdUdAo MODE = 0, time to AOUT = low after UPDATE = low 30 200 ns Delay: SCLK to DOUT Valid tPdDo Logic state change in DOUT on active SCLK edge 30 200 ns Delay: Output Disable tPdHOe VOUT = 0.5V, 1k pulldown to AGND 300 800 ns tPdLOe Output disabled, 1k pulldown to AGND, VIN = 0.5V 200 800 ns 100 ns Delay: Output Enable Setup: CE to SCLK tSuCe Setup: DIN to SCLK tSuDi 100 ns Hold Time: SCLK to DIN tHdDi 100 ns Minimum High Time: SCLK tMnHCk 100 ns Minimum Low Time: SCLK tMnLCk 100 ns Minimum Low Time: UPDATE tMnLUd 100 ns Setup Time: UPDATE to SCLK tSuHUd Rising edge of UPDATE to falling edge of SCLK 100 ns Hold Time: SCLK to UPDATE tHdHUd Falling edge of SCLK to falling edge of UPDATE 100 ns Setup Time: MODE to SCLK tSuMd Minimum time from clock edge to MODE with valid data clocking 100 ns Hold Time: MODE to SCLK tHdMd Minimum time from clock edge to MODE with valid data clocking 100 ns Minimum Low Time: RESET tMnLRst Delay: RESET tPdRst 10k pulldown to AGND, 0.5V step 300 ns 600 ns Note 1: Associated output voltage may be determined by multiplying the input voltage by the specified gain (AV) and adding output offset voltage. Note 2: Logic-level characteristics apply to the following pins: DIN, DOUT, SCLK, CE, UPDATE, RESET, A3-A0, MODE, and AOUT. Note 3: Switching transient settling time is guaranteed by the settling time (tS) specification. Switching transient is a result of updating the switch matrix. Note 4: Input test signal: 3.58MHz sine wave of amplitude 40IRE superimposed on a linear ramp (0 to 100IRE). IRE is a unit of video-signal amplitude developed by the International Radio Engineers: 140IRE = 1.0V. Note 5: All devices are 100% production tested at TA = +25C. Specifications over temperature limits are guaranteed by design. ______________________________________________________________________________________ 11 MAX4355 SWITCHING CHARACTERISTICS MAX4355 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers Naming Conventions Symbol Definitions SYMBOL 12 TYPE DESCRIPTION Ao Signal Address Valid Flag (AOUT) Ce Signal Clock Enable (CE) Ck Signal Clock (SCLK) Di Signal Serial Data In (DIN) Do Signal Serial Data Output (DOUT) Md Signal MODE Oe Signal Output Enable Rst Signal Reset Input (RESET) Ud Signal UPDATE Vo Signal Video Out (OUT) H Property High- or Low-to-High Transition Hd Property Hold L Property Low- or High-to-Low Transition Mn Property Minimum Mx Property Maximum Pd Property Propagation Delay Su Property Setup Tr Property Transition W Property Width * All parameters with time units are given a "t" designation, with appropriate subscript modifiers. * Propagation delays for clocked signals are from the active edge of clock. * Propagation delay for level-sensitive signals is from input to output at the 50% point of a transition. * Setup and hold times are measured from the 50% point of signal transition to the 50% point of the clocking signal transition. * Setup time refers to any signal that must be stable before the active clock edge, even if the signal is not latched or clocked itself. * Hold time refers to any signal that must be stable during and after active clock edge, even if the signal is not latched or clocked. * Propagation delays to unobservable internal signals are modified to setup and hold designations applied to observable I/O signals. ______________________________________________________________________________________ 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers DATA AND CONTROL TIMING Ce: CE tSuCe tMnHCk tMnLCk tHdCe tMnLUd tSuHUd Not Valid tHdHUd Ck: SCLK tMnHCk tSuDi tHdDi tMnLCk Di: DIN Do: DOUT tMnLUd tPdDo tHdUd Ud: UPDATE tSuUd tWTrVo tPdUdVo Hi-Z Vo: OUT_ Hi-Z tPdUdAo Rst: RESET tPdHOeVo Oe: OUTPUT ENABLE tPdLOeVo tPdRstVo Min Low Time: Clk Min Low Time: Update Setup Time: UPDATE to Clk with UPDATE High Setup Time: UPDATE to Clk with UPDATE Low Hold Time: Clk to UPDATE with UPDATE high tMnMd Min Low Time: MODE Max Rise Time: Clk, Update Min Low Time: Reset tPdUdVo tPdUdAo tPdDo tMnlRst Hold Time: Clock to Data In Min High Time: Clk Hold Time: Clk to UPDATE with UPDATE Low Asynchronous Delay: Data In to Data Out NAME Ao: AOUT TIMING PARAMETER DEFINITIONS DESCRIPTION Not Valid tPdDiDo tMxTr tMnLRst tPdRstVo tPdHOeVo tPdLOeVo tSuCe tSuDi MAX4355 NAME tHdDi Delay: Reset to Video Output TIMING PARAMETER DEFINITIONS DESCRIPTION Delay: Update to Video Out Delay: UPDATE to Aout Delay: Clk to Data Out Delay: Output Enable to Video Output (High: Disable) Delay: Output Enable to Video Output (Low: Enable) Setup: Clock Enable to Clock Setup Time: Data In to Clock Figure 1. Timing Diagram ______________________________________________________________________________________ 13 Typical Operating Characteristics--Dual Supplies 5V (VCC = +5V and VEE = -5V, VDD = +5V, AGND = DGND = 0, VIN_ = 0, RL = 150 to AGND, and TA = +25C, unless otherwise noted.) AV = +2V/V -2 AV = +1V/V -4 AV = +1V/V 0 -1 -2 AV = +2V/V -3 -4 -2 -5 -6 -7 -7 100 -7 0.1 1000 1 MEDIUM-SIGNAL FREQUENCY RESPONSE AV = +1V/V -1 -2 AV = +2V/V -4 1 AV = +2V/V 0 -1 -2 AV = +1V/V -3 2 -4 -1 -2 -4 -5 -6 -7 -7 10 100 1000 0.1 10 100 1000 LARGE-SIGNAL GAIN FLATNESS vs. FREQUENCY LARGE-SIGNAL FREQUENCY RESPONSE (AV = +1V/V) 0.1 NORMALIZED GAIN (dB) AV = +1V/V -0.1 AV = +2V/V -0.4 RL = 1k 0 AV = +1V/V -0.1 -0.2 -0.3 AV = +2V/V -0.4 3 0 -2 -4 -5 -0.6 -6 -0.7 -0.7 FREQUENCY (MHz) 1000 CL = 15pF -3 -0.6 100 CL = 30pF -1 -0.5 10 CL = 45pF 1 -0.5 1 RL = 150 2 NORMALIZED GAIN (dB) 0.2 MAX4355 toc08 MAX4355 toc07 0.3 MAX4355 toc09 LARGE-SIGNAL GAIN FLATNESS vs. FREQUENCY 0 0.1 1 FREQUENCY (MHz) 0.1 -0.3 1 FREQUENCY (MHz) RL = 150 -0.2 -7 0.1 FREQUENCY (MHz) 0.3 0.2 1000 AV = +2V/V -3 -6 100 1000 AV = +1V/V 0 -6 10 100 RL = 1k 1 -5 1 10 SMALL-SIGNAL FREQUENCY RESPONSE -5 0.1 1 3 MAX4355 toc05 RL = 1k 2 NORMALIZED GAIN (dB) 1 -3 0.1 1000 FREQUENCY (MHz) 3 MAX4355 toc04 RL = 1k 0 100 NORMALIZED GAIN (dB) LARGE-SIGNAL FREQUENCY RESPONSE 2 10 FREQUENCY (MHz) 3 MAX4355 toc03 -4 -6 10 AV = +2V/V -3 -6 1 AV = +1V/V 0 -1 -5 FREQUENCY (MHz) NORMALIZED GAIN (dB) 1 -5 0.1 14 MAX4355 toc02 1 RL = 150 2 MAX4355 toc06 -1 3 NORMALIZED GAIN (dB) 0 RL = 150 2 NORMALIZED GAIN (dB) NORMALIZED GAIN (dB) 1 -3 3 MAX4355 toc01 RL = 150 2 SMALL-SIGNAL FREQUENCY RESPONSE MEDIUM-SIGNAL FREQUENCY RESPONSE LARGE-SIGNAL FREQUENCY RESPONSE 3 NORMALIZED GAIN (dB) MAX4355 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers -7 0.1 1 10 FREQUENCY (MHz) 100 1000 0.1 1 10 FREQUENCY (MHz) ______________________________________________________________________________________ 100 1000 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers CL = 30pF -2 CL = 15pF -3 -4 -5 CL = 30pF 5 0 4 3 CL = 30pF 2 1 0 -1 CL = 15pF -2 -6 -7 -3 -10 1 10 100 0.1 1000 1 FREQUENCY (MHz) 10 100 0.1 1000 1 CROSSTALK vs. FREQUENCY CROSSTALK vs. FREQUENCY -40 MAX4355 toc13 AV = +1V/V AV = +2V/V -50 CROSSTALK (dB) -50 -60 -70 -80 -70 -80 -90 -100 -100 1000 DISTORTION vs. FREQUENCY -60 -90 100 0 -10 AV = +1V/V -20 DISTORTION (dBc) -40 10 FREQUENCY (MHz) FREQUENCY (MHz) MAX4355 toc14 0.1 CROSSTALK (dB) CL = 45pF 5 CL = 15pF -5 MAX4355 toc12 6 NORMALIZED GAIN (dB) NORMALIZED GAIN (dB) 0 -1 CL = 45pF 10 NORMALIZED GAIN (dB) CL = 45pF 1 7 MAX4355 toc11 RL = 150 2 15 MAX4355 toc10 3 MEDIUM-SIGNAL FREQUENCY RESPONSE (AV = +2V/V) MEDIUM-SIGNAL FREQUENCY RESPONSE (AV = +1V/V) MAX4355 toc15 LARGE-SIGNAL FREQUENCY RESPONSE (AV = +2V/V) -30 2ND HARMONIC -40 -50 -60 3RD HARMONIC -70 -80 -90 1 10 100 10 100 0.1 1000 1 10 DISTORTION vs. FREQUENCY ENABLED OUTPUT IMPEDANCE vs. FREQUENCY DISABLED OUTPUT IMPEDANCE vs. FREQUENCY -50 -60 3RD HARMONIC -70 100 10 1 -80 100 MAX4355 toc18 100k OUTPUT IMPEDANCE () 2ND HARMONIC -40 1M MAX4355 toc17 1000 MAX4355 toc16 -20 DISTORTION (dBc) 1 FREQUENCY (MHz) AV = +2V/V -30 0.1 FREQUENCY (MHz) 0 -10 1000 FREQUENCY (MHz) OUTPUT IMPEDANCE () 0.1 -100 10k 1k 100 10 -90 -0.1 -100 0.1 1 10 FREQUENCY (MHz) 100 1 0.1 1 10 FREQUENCY (MHz) 100 1000 100k 1M 10M 100M 1G FREQUENCY (Hz) ______________________________________________________________________________________ 15 MAX4355 Typical Operating Characteristics--Dual Supplies 5V (continued) (VCC = +5V and VEE = -5V, VDD = +5V, AGND = DGND = 0, VIN_ = 0, RL = 150 to AGND, and TA = +25C, unless otherwise noted.) Typical Operating Characteristics--Dual Supplies 5V (continued) (VCC = +5V and VEE = -5V, VDD = +5V, AGND = DGND = 0, VIN_ = 0, RL = 150 to AGND, and TA = +25C, unless otherwise noted.) POWER-SUPPLY REJECTION RATIO vs. FREQUENCY -55 -60 PSRR (dB) -70 -80 -90 -100 -60 -65 1000 MAX4355 toc21 -50 INPUT VOLTAGE NOISE vs. FREQUENCY MAX4355 toc20 -50 MAX4355 toc19 -40 VOLTAGE NOISE (nV/Hz) OFF-ISOLATION vs. FREQUENCY OFF-ISOLATION (dB) MAX4355 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers 100 -70 -110 -75 -120 100k 1M 10M 100M 1G 1 10k 100k 1M 10M 100M 10 FREQUENCY (Hz) FREQUENCY (Hz) LARGE-SIGNAL PULSE RESPONSE (AV = +1V/V) 10k 100k INPUT 0.5V/div INPUT 100mV/div OUTPUT 0.5V/div OUTPUT 0.5V/div OUTPUT 50mV/div 25ns/div 25ns/div 25ns/div MEDIUM-SIGNAL PULSE RESPONSE (AV = +2V/V) SWITCHING TIME (AV = +1V/V) SWITCHING TIME (AV = +2V/V) MAX4355 toc26 INPUT 50mV/div VUPDATE 5V/div VUPDATE 5V/div OUTPUT 50mV/div VOUT 500mV/div VOUT 1V/div 25ns/div 10M MAX4355 toc24 MAX4355 toc23 MAX4355 toc25 1M MEDIUM-SIGNAL PULSE RESPONSE (AV = +1V/V) INPUT 1V/div 16 1k FREQUENCY (Hz) LARGE-SIGNAL PULSE RESPONSE (AV = +2V/V) MAX4355 toc22 100 20ns/div ______________________________________________________________________________________ 20ns/div MAX4355 toc27 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers SWITCHING TRANSIENT (GLITCH) (AV = +2V/V) MAX4355 toc28 OFFSET VOLTAGE DISTRIBUTION MAX4355 toc29 VUPDATE 5V/div 300 MAX4355 toc30 SWITCHING TRANSIENT (GLITCH) (AV = +1V/V) 250 VUPDATE 5V/div 200 150 VOUT 25mV/div 100 VOUT 25mV/div 50 0 20ns/div 20ns/div -15 -13 -11 -9 -7 -5 -3 -1 1 3 5 OFFSET VOLTAGE (mV) 0.004 0.002 0 -0.002 -0.004 DIFFERENTIAL PHASE () DIFFERENTIAL PHASE () INPUT 1V/div 0 10 20 30 40 50 60 70 80 90 100 0 10 20 30 40 50 60 70 80 90 100 0.15 0.10 0.05 0 -0.05 MAX4355 toc33 MAX4355 toc32 MAX4355 toc31 DIFFERENTIAL GAIN (%) DIFFERENTIAL GAIN (%) 0.08 0.06 0.04 0.02 0 -0.02 LARGE-SIGNAL PULSE RESPONSE WITH CAPACITIVE LOAD (CL = 30pF, AV = +1V/V) DIFFERENTIAL GAIN AND PHASE (RL = 1k) DIFFERENTIAL GAIN AND PHASE (RL = 150) 0.03 0.02 0.01 0 -0.01 OUTPUT 0.5/Vdiv 0 10 20 30 40 50 60 70 80 90 100 0 10 20 30 40 50 60 70 80 90 100 IRE IRE LARGE-SIGNAL PULSE RESPONSE WITH CAPACITIVE LOAD (CL = 30pF, AV = +2V/V) MEDIUM-SIGNAL PULSE RESPONSE WITH CAPACITIVE LOAD (CL = 30pF, AV = +1V/V) MAX4355 toc35 MAX4355 toc34 25ns/div MEDIUM-SIGNAL PULSE RESPONSE WITH CAPACITIVE LOAD (CL = 30pF, AV = +2V/V) MAX4355 toc36 INPUT 0.5V/div INPUT 100mV/div INPUT 50mV/div OUTPUT 0.5V/div OUTPUT 50mV/div OUTPUT 50mV/div 25ns/div 25ns/div 25ns/div ______________________________________________________________________________________ 17 MAX4355 Typical Operating Characteristics--Dual Supplies 5V (continued) (VCC = +5V and VEE = -5V, VDD = +5V, AGND = DGND = 0, VIN_ = 0, RL = 150 to AGND, and TA = +25C, unless otherwise noted.) Typical Operating Characteristics--Dual Supplies 5V (continued) (VCC = +5V and VEE = -5V, VDD = +5V, AGND = DGND = 0, VIN_ = 0, RL = 150 to AGND, and TA = +25C, unless otherwise noted.) GAIN vs. TEMPERATURE RESET DELAY vs. RESET CAPACITANCE 0.15 MAX4355 toc38 10 MAX4355 toc37 0.20 1 100m 0.10 0.05 RESET DELAY (s) NORMALIZED GAIN (dB) AV = +2V/V 0 -0.05 AV = +1V/V -0.10 10m 1m 100 10 1 -0.15 100n -0.20 10n -50 -25 0 25 50 75 100 1p 10p 100p 1n TEMPERATURE (C) 10n 100n 1 10 100 CRESET (F) SUPPLY CURRENT vs. TEMPERATURE MAX4355 toc39 70 60 SUPPLY CURRENT (mA) MAX4355 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers 50 ICC 40 IEE 30 20 10 IDD 0 -50 -25 0 25 50 75 100 TEMPERATURE (C) 18 ______________________________________________________________________________________ 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers 0 -1 AV = +2V/V -2 -3 AV = +1V/V -4 -2 AV = +2V/V -4 0 -2 -4 -5 -6 -7 -7 100 -7 0.1 1 10 100 1000 0.1 MEDIUM-SIGNAL FREQUENCY RESPONSE SMALL-SIGNAL FREQUENCY RESPONSE AV = +1V/V -4 AV = +1V/V 0 -1 -2 AV = +2V/V -3 -4 1 -1 -2 -3 -5 -6 -6 -6 -7 -7 100 1000 -7 0.1 1 10 100 1000 0.1 1 10 100 1000 FREQUENCY (MHz) FREQUENCY (MHz) LARGE-SIGNAL GAIN FLATNESS LARGE-SIGNAL GAIN FLATNESS LARGE-SIGNAL FREQUENCY RESPONSE (AV = +1V/V) -0.2 -0.3 AV = +1V/V -0.4 0.2 0.1 NORMALIZED GAIN (dB) 0 -0.1 -0.5 AV = +2V/V -0.7 RL = 1k AV = +1V/V AV = +2V/V 0 -0.1 -0.2 -0.3 -0.4 10 FREQUENCY (MHz) 100 1000 2 CL = 45pF 1 0 -1 CL = 30pF -2 CL = 15pF -3 -4 -0.5 -5 -0.6 -6 -7 -0.7 1 3 NORMALIZED GAIN (dB) MAX4355 toc46 0.1 -0.6 0.3 MAX4355 toc48 FREQUENCY (MHz) RL = 150 0.1 AV = +2V/V -4 -5 10 AV = +1V/V 0 -5 1 RL = 1k 2 NORMALIZED GAIN (dB) -2 -3 1 NORMALIZED GAIN (dB) -1 RL = 1k 2 3 MAX4355 toc44 MAX4355 toc43 3 1000 MAX4355 toc45 LARGE-SIGNAL FREQUENCY RESPONSE AV = +2V/V 0.2 100 FREQUENCY (MHz) 0 0.3 10 FREQUENCY (MHz) 1 0.1 1 FREQUENCY (MHz) RL = 1k 2 1000 AV = +2V/V -3 -6 10 AV = +1V/V -1 -6 1 MAX4355 toc42 MAX4355 toc41 AV = +1V/V -1 1 -5 3 NORMALIZED GAIN (dB) 0 RL = 150 2 -5 0.1 NORMALIZED GAIN (dB) 1 -3 3 MAX4355 toc47 NORMALIZED GAIN (dB) 1 RL = 150 2 NORMALIZED GAIN (dB) RL = 150 SMALL-SIGNAL FREQUENCY RESPONSE 3 MAX4355 toc40 3 2 MEDIUM-SIGNAL FREQUENCY RESPONSE NORMALIZED GAIN (dB) LARGE-SIGNAL FREQUENCY RESPONSE 0.1 1 10 FREQUENCY (MHz) 100 1000 0.1 1 10 100 1000 FREQUENCY (MHz) ______________________________________________________________________________________ 19 MAX4355 Typical Operating Characteristics--Dual Supplies 3V (VCC = +3V and VEE = -3V, VDD = +3V, AGND = DGND = 0, VIN_ = 0, RL = 150 to AGND, and TA = +25C, unless otherwise noted.) Typical Operating Characteristics--Dual Supplies 3V (continued) (VCC = +3V and VEE = -3V, VDD = +3V, AGND = DGND = 0, VIN_ = 0, RL = 150 to AGND, and TA = +25C, unless otherwise noted.) -1 CL = 30pF -2 CL = 15pF -3 -4 -5 4 CL = 30pF 2 0 -2 CL = 15pF -4 -7 1 10 100 1000 1 10 100 0 -1 1000 0.1 -30 -35 -65 -70 AV = +2V/V -40 CROSSTALK (dB) -60 -45 -10 -50 -55 -60 -30 -60 -80 -85 -75 -90 -90 -80 -100 100 0.1 1000 1 10 100 FREQUENCY (MHz) FREQUENCY (MHz) DISTORTION VS. FREQUENCY ENABLED OUTPUT IMPEDANCE VS. FREQUENCY DISABLED OUTPUT IMPEDANCE VS. FREQUENCY 2ND HARMONIC -40 -50 -60 -70 3RD HARMONIC -80 100 10 1 MAX4355 toc57 100k OUTPUT IMPEDANCE () OUTPUT IMPEDANCE () -20 1M MAX4355 toc56 1000 MAX4355 toc55 AV = +2V/V -30 10 3RD HARMONIC FREQUENCY (Hz) 0 -10 1 2ND HARMONIC -50 -70 0.1 1000 -40 -70 1G AV = +1V/V -20 -65 100M 100 DISTORTION VS. FREQUENCY -80 10M 10 0 -75 1M 1 FREQUENCY (MHz) CROSSTALK VS. FREQUENCY -55 1k CL = 15pF FREQUENCY (MHz) DISTORTION (dBc) -50 CL = 30pF 1 -4 0.1 MAX4355 toc52 AV = +1V/V 2 -2 CROSSTALK VS. FREQUENCY -45 3 -3 FREQUENCY (MHz) -40 CL = 45pF 4 -8 0.1 CROSSTALK (dB) 5 -6 -6 MAX4355 toc51 CL = 45pF NORMALIZED GAIN (dB) 0 6 MAX4355 toc53 NORMALIZED GAIN (dB) 6 NORMALIZED GAIN (dB) CL = 45pF 1 8 MEDIUM-SIGNAL FREQUENCY RESPONSE (AV = +2V/V) MAX4355 toc50 2 MAX4355 toc49 3 MEDIUM-SIGNAL FREQUENCY RESPONSE (AV = +1V/V) MAX4355 toc54 LARGE-SIGNAL FREQUENCY RESPONSE (AV = +2V/V) CROSSTALK (dBc) MAX4355 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers 10k 1k 100 10 -90 -100 1M 10M FREQUENCY (Hz) 20 1 0.1 0.1 100M 0.1 1 10 FREQUENCY (MHz) 100 1000 0.1 1 10 FREQUENCY (MHz) ______________________________________________________________________________________ 100 1000 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers POWER-SUPPLY REJECTION RATIO VS. FREQUENCY MAX4355 toc59 -50 1000 -70 -80 VOLTAGE NOISE (nV/Hz) -60 -60 PSRR (dB) OFF-ISOLATION (dB) -55 MAX4355 toc58 -40 INPUT VOLTAGE NOISE vs. FREQUENCY MAX4355 toc60 OFF-ISOLATION VS. FREQUENCY -65 -90 -70 -100 100 -110 -75 -120 1M 10M 100M 10k 1G 100k 1M 10M 100M 10 10 100 1k 10k 100k 1M 10M FREQUENCY (Hz) FREQUENCY (Hz) FREQUENCY (Hz) LARGE-SIGNAL PULSE RESPONSE (AV = +1V/V) LARGE-SIGNAL PULSE RESPONSE (AV = +2V/V) MEDIUM-SIGNAL PULSE RESPONSE (AV = +1V/V) MAX4355 toc62 MAX4355 toc61 100k INPUT 1V/div OUTPUT 0.5V/div MAX4355 toc63 INPUT 0.5V/div INPUT 100mV/div OUTPUT 0.5V/div OUTPUT 50mV/div 25ns/div 25ns/div 25ns/div MEDIUM-SIGNAL PULSE RESPONSE (AV = +2V/V) SWITCHING TIME (AV = +1V/V) SWITCHING TIME (AV = +2V/V) MAX4355 toc64 MAX4355 toc65 MAX4355 toc66 INPUT 50mV/div OUTPUT 50mV/div 25ns/div VUPDATE 3V/div VUPDATE 3V/div VOUT 500mV/div VOUT 1V/div 20ns/div 20ns/div ______________________________________________________________________________________ 21 MAX4355 Typical Operating Characteristics--Dual Supplies 3V (continued) (VCC = +3V and VEE = -3V, VDD = +3V, AGND = DGND = 0, VIN_ = 0, RL = 150 to AGND, and TA = +25C, unless otherwise noted.) Typical Operating Characteristics--Dual Supplies 3V (continued) (VCC = +3V and VEE = -3V, VDD = +3V, AGND = DGND = 0, VIN_ = 0, RL = 150 to AGND, and TA = +25C, unless otherwise noted.) SWITCHING TRANSIENT (GLITCH) (AV = +2V/V) MAX4355 toc68 OFFSET VOLTAGE DISTRIBUTION 300 MAX4355 toc69 SWITCHING TRANSIENT (GLITCH) (AV = +1V/V) MAX4355 toc67 250 VUPDATE 3V/div VUPDATE 3V/div 200 150 100 VOUT 25mV/div VOUT 25mV/div 50 0 20ns/div 20ns/div -15 -13 -11 -9 -7 -5 -3 -1 1 3 5 OFFSET VOLTAGE (mV) MAX4355 toc71 0.010 0.005 0 -0.010 -0.015 -0.020 DIFFERENTIAL GAIN (%) DIFFERENTIAL GAIN (%) 0.20 0.15 0.10 0.05 0 -0.05 LARGE-SIGNAL PULSE RESPONSE WITH CAPACITIVE LOAD (CL = 30pF, AV = +1V/V) MAX4355 toc72 DIFFERENTIAL GAIN AND PHASE (RL = 1k) MAX4355 toc70 DIFFERENTIAL GAIN AND PHASE (RL = 150) INPUT 1V/div 0.08 DIFFERENTIAL PHASE () 0.25 0.20 0.15 0.10 0.05 0 -0.05 DIFFERENTIAL PHASE () MAX4355 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers 0.06 0 -0.02 10 10 20 30 40 50 60 70 80 90 100 IRE LARGE-SIGNAL PULSE RESPONSE WITH CAPACITIVE LOAD (CL = 30pF, AV = +2V/V) MEDIUM-SIGNAL PULSE RESPONSE WITH CAPACITIVE LOAD (CL = 30pF, AV = +1V/V) INPUT 0.5V/div MAX4355 toc75 INPUT 50mV/div OUTPUT 50mV/div OUTPUT 50mV/div 25ns/div MEDIUM-SIGNAL PULSE RESPONSE WITH CAPACITIVE LOAD (CL = 30pF, AV = +2V/V) MAX4355 toc74 INPUT 100mV/div OUTPUT 0.5V/div 25ns/div 20 30 40 50 60 70 80 90 100 IRE MAX4355 toc73 22 OUTPUT 500mV/div 0.04 0.02 25ns/div ______________________________________________________________________________________ 25ns/div 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers RESET DELAY vs. RESET CAPACITANCE GAIN VS. TEMPERATURE 1 100m RESET DELAY (s) 0.10 0.05 AV = +2V/V 0 -0.05 -0.10 MAX4355 toc77 0.15 NORMALIZED GAIN (dB) 10 MAX4355 toc76 0.20 10m 1m 100 10 1 AV = +1V/V 100n -0.15 10n -0.20 -50 -25 0 25 50 TEMPERATURE (C) 75 100 1p 10p 100p 1n 10n 100n 1 10 100 CRESET (F) ______________________________________________________________________________________ 23 MAX4355 Typical Operating Characteristics--Dual Supplies 3V (continued) (VCC = +3V and VEE = -3V, VDD = +3V, AGND = DGND = 0, VIN_ = 0, RL = 150 to AGND, and TA = +25C, unless otherwise noted.) Typical Operating Characteristics--Single Supply +5V (VCC = +5V and VEE = 0, VDD = +5V, AGND = DGND = 0, VIN_ = 0, RL = 150 to AGND, AV = +1V/V, and TA = +25C, unless otherwise noted.) 0 -1 -2 -3 -4 0 -1 -2 -3 -4 -3 -4 -5 -6 -6 -7 -7 10 100 1000 -7 0.1 1 100 0.1 1000 -1 -2 -3 -4 MAX4355 toc82 1 0 -1 -2 -3 -4 1 0 -1 -2 -3 -4 -5 -5 -6 -6 -6 -7 -7 100M -7 100k 1G 1M LARGE-SIGNAL GAIN FLATNESS 100M 100k 1G -0.2 -0.3 -0.4 MAX4355 toc85 0.1 2 0 -0.1 -0.2 -0.3 -0.4 0 -2 -4 -0.6 -6 -0.7 -0.7 FREQUENCY (MHz) CL = 30pF CL = 15pF -3 -0.6 1000 1G -1 -5 100 CL = 45pF 1 -0.5 10 100M LARGE-SIGNAL FREQUENCY RESPONSE -0.5 1 10M 3 NORMALIZED GAIN (dB) 0 -0.1 RL = 1k 0.2 NORMALIZED GAIN (dB) 0.1 0.1 1M FREQUENCY (Hz) LARGE-SIGNAL GAIN FLATNESS 0.3 MAX4355 toc84 RL = 150 0.2 10M FREQUENCY (Hz) FREQUENCY (Hz) 0.3 RL = 1k 2 -5 10M 1000 3 NORMALIZED GAIN (dB) 0 RL = 1k 2 100 SMALL-SIGNAL FREQUENCY RESPONSE MEDIUM-SIGNAL FREQUENCY RESPONSE NORMALIZED GAIN (dB) 1 1M 10 FREQUENCY (MHz) 3 MAX4355 toc81 RL = 1k 100k 1 FREQUENCY (MHz) LARGE-SIGNAL FREQUENCY RESPONSE 2 10 MAX4355 toc83 1 MAX4355 toc80 -2 -6 3 NORMALIZED GAIN (dB) 0 -1 -5 FREQUENCY (MHz) 24 1 -5 0.1 RL = 150 2 NORMALIZED GAIN (dB) 1 NORMALIZED GAIN (dB) NORMALIZED GAIN (dB) 1 RL = 150 2 3 MAX4355 toc79 MAX4355 toc78 RL = 150 2 SMALL-SIGNAL FREQUENCY RESPONSE MEDIUM-SIGNAL FREQUENCY RESPONSE 3 MAX4355 toc86 LARGE-SIGNAL FREQUENCY RESPONSE 3 NORMALIZED GAIN (dB) MAX4355 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers -7 0.1 1 10 FREQUENCY (MHz) 100 1000 0.1 1 10 FREQUENCY (MHz) ______________________________________________________________________________________ 100 1000 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers CL = 15pF -70 -75 -80 -3 -5 -7 1M 10M 100M -90 -100 -100 1M 10M 100M 1 10 100 FREQUENCY (MHz) 1M MAX4355 toc90 1 0.1 1G DISABLED OUTPUT IMPEDANCE vs. FREQUENCY OFF-ISOLATION vs. FREQUENCY -40 -50 OFF-ISOLATION (dB) 100k OUTPUT IMPEDANCE () OUTPUT IMPEDANCE () -80 100k 3RD HARMONIC -60 -95 ENABLED OUTPUT IMPEDANCE vs. FREQUENCY 10 -50 -70 FREQUENCY (MHz) 100 -40 -90 1G 2ND HARMONIC -30 -85 FREQUENCY (Hz) 1k -20 MAX4355 toc91 100k -10 DISTORTION () 1 -1 -65 MAX4355 toc89 -60 3 0 MAX4355 toc88 CL = 30pF -55 CROSSTALK (dB) NORMALIZED GAIN (dB) MAX4355 toc87 CL = 45pF 5 DISTORTION vs. FREQUENCY CROSSTALK vs. FREQUENCY -50 10k 1k 100 MAX4355 toc92 MEDIUM-SIGNAL FREQUENCY RESPONSE 7 -60 -70 -80 -90 -100 10 -110 1 0.1 0.1 1 10 100 -120 100k 1000 1M VOLTAGE NOISE (nV/Hz) PSRR (dB) -60 -65 100k 1M 10M 100M INPUT VOLTAGE NOISE vs. FREQUENCY LARGE-SIGNAL PULSE RESPONSE 1G MAX4355 toc95 MAX4355 toc94 -55 1G FREQUENCY (Hz) 1000 MAX4355 toc93 -50 100M FREQUENCY (Hz) FREQUENCY (MHz) POWER-SUPPLY REJECTION RATIO vs. FREQUENCY 10M INPUT 1V/div 100 OUTPUT 0.5V/div -70 -75 1 10k 100k 1M FREQUENCY (Hz) 10M 100M 10 100 1k 10k 100k 1M 10M 25ns/div FREQUENCY (Hz) ______________________________________________________________________________________ 25 MAX4355 Typical Operating Characteristics--Single Supply +5V (continued) (VCC = +5V and VEE = 0, VDD = +5V, AGND = DGND = 0, VIN_ = 0, RL = 150 to AGND, AV = +1V/V, and TA = +25C, unless otherwise noted.) Typical Operating Characteristics--Single Supply +5V (continued) (VCC = +5V and VEE = 0, VDD = +5V, AGND = DGND = 0, VIN_ = 0, RL = 150 to AGND, AV = +1V/V, and TA = +25C, unless otherwise noted.) SWITCHING TIME MEDIUM-SIGNAL PULSE RESPONSE MAX4355 toc96 MAX4355 toc97 VUPDATE 5V/div INPUT 100mV/div OUTPUT 50mV/div VOUT 500mV/div 25ns/div 20ns/div OFFSET VOLTAGE HISTOGRAM SWITCHING TRANSIENT (GLITCH) MAX4355 toc98 MAX4355 toc99 250 200 VUPDATE 5V/div 150 100 VOUT 25mV/div 50 0 -20 -18 -16 -14 -12 -10 -8 20ns/div -6 -4 -2 0 OFFSET VOLTAGE (mV) 0.20 0.10 0 -0.10 0.20 0.10 0 -0.10 -0.20 0 10 20 30 40 50 60 70 80 90 100 26 MAX4355 toc101 0.30 DIFFERENTIAL GAIN (%) DIFFERENTIAL GAIN AND PHASE (RL = 1k) MAX4355 toc100 DIFFERENTIAL GAIN (%) DIFFERENTIAL GAIN AND PHASE (RL = 150) 0.3 0.2 0.1 0 -0.1 0 10 20 30 40 50 60 70 80 90 100 DIFFERENTIAL PHASE () DIFFERENTIAL PHASE () MAX4355 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers 0.06 0.04 0.02 0 -0.02 0 10 20 30 40 50 60 70 80 90 100 0 10 20 30 40 50 60 70 80 90 100 IRE IRE ______________________________________________________________________________________ 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers MEDIUM-SIGNAL PULSE RESPONSE WITH CAPACITIVE LOAD (CL = 30pF) LARGE-SIGNAL PULSE RESPONSE WITH CAPACITIVE LOAD (CL = 30pF) MAX4355 toc103 MAX4355 toc102 INPUT 1V/div INPUT 100mV/div OUTPUT 0.5V/div OUTPUT 50mV/div 25ns/div 25ns/div GAIN vs. TEMPERATURE 1 100m RESET DELAY (s) 0.10 0.05 0 -0.05 -0.10 MAX4355 toc105 0.15 NORMALIZED GAIN (dB) RESET DELAY vs. RESET CAPACITANCE 10 MAX4355 toc104 0.20 10m 1m 100 10 1 -0.15 100n 10n -0.20 -50 -25 0 25 50 TEMPERATURE (C) 75 100 1p 10p 100p 1n 10n 100n 1 10 100 CRESET (F) ______________________________________________________________________________________ 27 MAX4355 Typical Operating Characteristics--Single Supply +5V (continued) (VCC = +5V and VEE = 0, VDD = +5V, AGND = DGND = 0, VIN_ = 0, RL = 150 to AGND, AV = +1V/V, and TA = +25C, unless otherwise noted.) MAX4355 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers Pin Description PIN NAME 1, 3, 5, 7, 9, 11, 13, 15, 17, 19, 21, 23 IN4-IN15 2, 4, 6, 8, 10, 12, 14, 16, 45, 46, 82, 83, 84, 91, 93, 95, 97 AGND Analog Ground 18, 20, 22, 24 A3-A0 Address Programming Inputs. Connect to DGND or V DD to select the address for Individual Output Address Mode (see Table 3). 25, 47, 51, 55, 59, 63, 67, 71, 75, 81 V CC Positive Analog Supply. Bypass each pin with a 0.1F capacitor to AGND. Connect a single 10F capacitor from one V CC pin to AGND. 26, 27, 38-44, 76, 77, 85-89, 99, 100 N.C. No Connection. Not internally connected. Connect to AGND. 28 DOUT Serial Data Output. In Complete Matrix Mode, data is clocked through the 96-bit Matrix Control shift register. In Individual Output Address Mode, data at DIN passes directly to DOUT. 29 DGND Digital Ground 30 AOUT Address Recognition Output. AOUT drives low after successful chip address recognition. 31 SCLK Serial Clock Input 32 CE 33 MODE Serial Interface Mode Select Input. Drive high for Complete Matrix Mode (Mode 1) or drive low for Individual Output Address Mode (Mode 0). 34 RESET Asynchronous Reset Input/Output. Drive RESET low to initiate hardware reset. All matrix settings are set to power up defaults and all analog outputs are disabled. Additional power-on-reset delay may be set by connecting a small capacitor from RESET to DGND. 35 UPDATE 36 DIN Serial Data Input. Data is clocked in on the falling edge of SCLK. 37 V DD Digital Logic Supply. Bypass VDD with a 0.1F capacitor to DGND. 48, 50, 52, 54, 56, 58, 60, 62, 64, 66, 68, 70, 72, 74, 78, 80 OUT15-OUT0 49, 53, 57, 61, 65, 69, 73, 79, 98 V EE 90, 92, 94, 96 IN0-IN3 28 FUNCTION Buffered Analog Inputs Clock Enable Input. Drive low to enable the serial data interface. Update Input. Drive UPDATE low to transfer data from mode registers to the switch matrix. Buffered Analog Outputs. Gain is individually programmable for A V = +1V/V or A V = +2V/V through the serial interface. Outputs may be individually disabled (high impedance). On power-up, or assertion of RESET, all outputs are disabled. Negative Analog Supply. Bypass each pin with a 0.1F capacitor to AGND. Connect a single 10F capacitor from one V EE pin to AGND. Buffered Analog Inputs ______________________________________________________________________________________ 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers MAX4355 IN0 AV* 16 x 16 SWITCH MATRIX IN2 AV* IN15 AV* POWER-ON RESET THERMAL SHUTDOWN DISABLE ALL OUTPUTS 256 16 DECODE LOGIC DIN SCLK UPDATE CE SERIAL INTERFACE LATCHES ENABLE/DISABLE IN1 RESET OUT0 AV* OUT1 OUT2 OUT15 16 VCC VEE AGND VDD DGND MATRIX REGISTER 96 BITS DOUT UPDATE REGISTER 16 BITS AOUT A0-A3 MODE *AV = +1V/V OR +2V/V Detailed Description The MAX4355 is a highly integrated 16 16 nonblocking video crosspoint switch matrix. All inputs and outputs are buffered, with all outputs able to drive standard 75 reverse-terminated video loads. A 3-wire interface programs the switch matrix and initializes with a single update signal. The unique serial interface operates in one of two modes: Complete Matrix Mode (Mode 1) or Individual Output Address Mode (Mode 0). In the Functional Diagram, the signal path of the MAX4355 is from the inputs (IN0-IN15), through the switching matrix, buffered by the output amplifiers, and presented at the output terminals (OUT0-OUT15). The other functional blocks are the serial interface and control logic. Each of the functional blocks is described in detail below. Analog Outputs The MAX4355 outputs are high-speed voltage feedback amplifiers capable of driving 150 (75 back-terminated) loads. The gain, A V = +1V/V or +2V/V, is selectable through programming bit 4 of the serial control word. Amplifier compensation is automatically opti- mized to maximize the bandwidth for each gain selection. Each output can be individually enabled and disabled through bit 5 of the serial control word. When disabled, the output is high impedance, presenting typically a 4k load, and 3pF output capacitance, allowing multiple outputs to be connected together in building large arrays. On power-up (or asynchronous RESET), all outputs are initialized in the disabled state to avoid output conflicts in large-array configurations. The programming and operation of the MAX4355 is output referred. Outputs are configured individually to connect to any one of the 16 analog inputs, programmed to the desired gain (AV = +1V/V or +2V/V), or disabled in a high-impedance state. Analog Inputs The MAX4355 offers 16 analog input channels. Each input is buffered before the crosspoint switch matrix, allowing one input to cross-connect to up to 16 outputs. The input buffers are voltage feedback amplifiers with high-input impedance and low-input bias current. This allows the use of very simple input clamp circuits. ______________________________________________________________________________________ 29 MAX4355 Functional Diagram MAX4355 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers Table 1. Operation Truth Table CE UPDATE SCLK DIN DOUT MODE AOUT RESET 1 X X X X X X 1 No change in logic. 1 Data at DIN is clocked on the negative edge of the SCLK into the 96-bit Complete Matrix Mode register. DOUT supplies original data in 96 SCLK pulses later. 1 Data in the serial 96-bit Complete Matrix Mode register is transferred into parallel latches that control the switching matrix. 1 Data at DIN is routed to the Individual Output Address Mode shift register. DIN is also connected directly to DOUT so that all devices on the serial bus may be addressed in parallel. 0 0 0 1 0 1 X Di X Di Di-96 X Di 1 1 0 1 1 0 0 X Di Di 0 0 1 The 4-bit chip address A3 to A0 is compared to D13 to D10. If equal, the remaining 10 bits in the Individual Output Address Mode register are decoded, allowing reprogramming for a single output. AOUT signals a successful individual matrix update. X X X X X X X 0 Asynchronous reset. All outputs are disabled. Other logic remains unchanged. Switch Matrix The MAX4355 has 256 individual T-switches making a 16 x 16 switch matrix. The switching matrix is 100% nonblocking, which means that any input may be routed to any output. The switch matrix programming is output referred. Each output may be connected to any one of the 16 analog inputs. Any one input can be routed to all 16 outputs with no signal degradation. Digital Interface The digital interface consists of the following pins: DIN, DOUT, SCLK, AOUT, UPDATE, CE, A3-A0, MODE, and RESET. DIN is the serial data input; DOUT is the serial data output. SCLK is the serial data clock that clocks data into the Data Input registers (Figure 2). Data at DIN is loaded at each falling edge of SCLK. DOUT is the data shifted out of the 96-bit Complete Matrix Mode (Mode = 1). DIN passes directly to DOUT when in Individual Output Address Mode (Mode = 0). 30 1 OPERATION/COMMENTS The falling edge of UPDATE latches the data and programs the matrix. When using Individual Output Address Mode, the address recognition output AOUT drives low when control word bits D13 to D10 match the address programming inputs (A3-A0) and UPDATE is low. Table 1 is the operation truth table. Programming the Matrix The MAX4355 offers two programming modes: Individual Output Address Mode and Complete Matrix Mode. These two distinct programming modes are selected by toggling a single MODE pin high or low. Both modes operate with the same physical board layout. This flexibility allows initial programming of the IC by daisy-chaining and sending one long data word while still being able to address immediately and update individual outputs in the matrix. Individual Output Address Mode (MODE = 0) Drive MODE to logic low to select mode 0. Individual outputs are programmed through the serial interface ______________________________________________________________________________________ 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers BIT NAME 0 (LSB) Input Address 0 1 Input Address 1 2 Input Address 2 Table 3. Chip Address Programming for 16-Bit Control Word (Mode 0: Individual Output Address Mode) IC ADDRESS BIT FUNCTION LSB of input channel select address ADDRESS A1 A0 (LSB) CHIP ADDRESS (HEX) CHIP ADDRESS (DECIMAL) 0 0 0 0h 0 0 0 1 1h 1 A3 (MSB) A2 0 3 Input Address 3 MSB of input channel select address 0 0 0 1 0 2h 2 0 1 1 3h 3 Gain Set Gain Select for output buffer, 0 = gain of +1V/V, 1 = gain of +2V/V 0 4 0 1 0 0 4h 4 0 1 0 1 5h 5 Enable bit for output, 0 = disable, 1 = enable 0 1 1 0 6h 6 0 1 1 1 7h 7 LSB of output buffer address 1 0 0 0 8h 8 5 Output Enable 6 Output Address B0 1 0 0 1 9h 9 7 Output Address B1 1 0 1 0 Ah 10 8 Output Address B2 1 0 1 1 Bh 11 9 Output Address B3 MSB of output buffer address 1 1 0 0 Ch 12 1 1 0 1 Dh 13 LSB of selected chip address 1 1 1 0 Eh 14 1 1 1 1 Fh 15 10 IC Address A0 11 IC Address A1 12 IC Address A2 13 IC Address A3 MSB of selected chip address 14 X Don't care 15 (MSB) X Don't care with a single 16-bit control word. The control word consists of two don't care MSBs, the chip address bits, output address bits, an output enable/disable bit, an output gain-set bit, and input address bits (Tables 2 through 6, and Figure 2). In mode 0, data at DIN passes directly to DOUT through the data routing gate (Figure 3). In this configuration, the 16-bit control word is simultaneously sent to all chips in an array of up to 16 addresses. Complete Matrix Mode (MODE = 1) Drive MODE to logic high to select mode 1. A single 96-bit control word consisting of sixteen 6-bit control words programs all outputs. The 96-bit control word's first 6-bit control word (MSBs) programs output 15, and the last 6-bit control word (LSBs) programs output 0 (Table 7 and Figures 4 and 5). Data clocked into the 96-bit Complete Matrix Mode register is latched on the falling edge of UPDATE, and the outputs are immediately updated. Initialization String The Complete Matrix Mode (Mode = 1) is convenient to use to program the matrix at power-up. In a large matrix consisting of many MAX4355 devices, all the devices can be programmed by sending a single bit stream equal to n x 96 bits, where n is the number of MAX4355 devices on the bus. The first 96-bit data word programs the last MAX4355 in line (see Matrix Programming section). RESET The MAX4355 features an asynchronous bidirectional RESET with an internal 20k pullup resistor to VDD. When RESET is pulled low, either by internal circuitry, or driven externally, the analog output buffers are latched into a high-impedance state. After RESET is ______________________________________________________________________________________ 31 MAX4355 Table 2. 16-Bit Serial Control Word Bit Assignments (Mode 0: Individual Output Address Mode) MAX4355 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers 16-BIT INDIVIDUAL OUTPUT ADDRESS MODE: FIRST 2 BITS ARE DON'T CARE BITS, LAST 14 BITS CLOCKED INTO DIN WHEN MODE = 0 CREATE ADDRESS WORD; IC ADDRESS A3-A0 IS COMPARED TO DIN13-DIN10 WHEN UPDATE IS LOW; IF EQUAL, ADDRESSED OUTPUT IS UPDATED. UPDATE tHdMd tSuMd MODE SCLK IC ADDRESS = 5 OUTPUT ADDRESS = 3 INPUT ADDRESS 0 (LSB) = 0 INPUT ADDRESS 1 = 0 INPUT ADDRESS 2 = 1 INPUT ADDRESS 3 (MSB) = 1 GAIN SET = +1V/V OUTPUT ENABLED OUTPUT ADDRESS B0 OUTPUT ADDRESS B1 OUTPUT ADDRESS B2 OUTPUT ADDRESS B3 IC ADDRESS A0 IC ADDRESS A1 IC ADDRESS A2 IC ADDRESS A3 DON'T CARE X DON'T CARE X DIN OUTPUT (i) ENABLED, AV = +1V/V, CONNECTED TO INPUT 12 EXAMPLE OF 16-BIT SERIAL CONTROL WORD FOR OUTPUT CONTROL IN INDIVIDUAL OUTPUT ADDRESS MODE Figure 2. Mode 0: Individual Output Address Mode Timing and Programming Example Table 4. Chip Address A3-A0 Pin Programming PIN Table 5. Output Selection Programming OUTPUT ADDRESS BIT ADDRESS CHIP CHIP ADDRESS ADDRESS (HEX) (DECIMAL) SELECTED OUTPUT B3 (MSB) B2 B1 B0 (LSB) 0 0 0 0 0 A3 A2 A1 A0 DGND DGND DGND DGND 0h 0 0 0 0 1 1 DGND DGND DGND VDD 1h 1 0 0 1 0 2 2h 2 0 0 1 1 3 DGND DGND DGND DGND VDD VDD 3h 3 0 1 0 0 4 DGND VDD DGND DGND 4h 4 0 1 0 1 5 5 0 1 1 0 6 1 1 1 7 8 DGND VDD VDD DGND DGND VDD 5h DGND VDD VDD DGND 6h 6 0 DGND VDD VDD VDD 7h 7 1 0 0 0 8 1 0 0 1 9 0 1 0 10 VDD DGND DGND 8h VDD DGND DGND VDD 9h 9 1 VDD DGND VDD DGND Ah 10 1 0 1 1 11 11 1 1 0 0 12 1 0 1 13 VDD 32 DGND DGND VDD VDD Bh VDD VDD DGND DGND Ch 12 1 VDD VDD DGND VDD Dh 13 1 1 1 0 14 1 1 1 1 15 VDD VDD VDD DGND Eh 14 VDD VDD VDD VDD Fh 15 ______________________________________________________________________________________ 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers MAX4355 A0-A3 CHIP ADDRESS SCLK CE 4 MODE 4 16-BIT INDIVIDUAL OUTPUT ADDRESS MODE REGISTER SCLK MODE 10 CE MODE A DIN B 96-BIT COMPLETE MATRIX MODE REGISTER 10 S DATA ROUTING GATE DOUT 96 MODE OUTPUT ADDRESS DECODE 7 MODE 1 UPDATE EN 96 AOUT 7 96-BIT PARALLEL LATCH 96 SWITCH DECODE 16 256 SWITCH MATRIX OUTPUT ENABLE Figure 3. Serial Interface Block Diagram Table 6. Input Selection Programming INPUT ADDRESS BIT SELECTED INPUT B3 (MSB) B2 B1 B0 (LSB) 0 0 0 0 0 0 0 0 1 1 0 0 1 0 2 0 0 1 1 3 0 1 0 0 4 0 1 0 1 5 0 1 1 0 6 0 1 1 1 7 1 0 0 0 8 1 0 0 1 9 1 0 1 0 10 1 0 1 1 11 1 1 0 0 12 1 1 0 1 13 1 1 1 0 14 1 1 1 1 15 Table 7. 6-Bit Serial Control Word Bit Assignments (Mode 1: Complete Matrix Mode) BIT NAME FUNCTION 5 (MSB) Output Enable Enable bit for output, 0 = disable, 1 = enable 4 Gain Set 3 Input Address 3 2 Input Address 2 1 Input Address 1 0 (LSB) Input Address 0 Gain Select for output buffer, 0 = gain of +1V/V, 1 = gain of +2V/V MSB of input channel select address LSB of input channel select address ______________________________________________________________________________________ 33 MAX4355 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers tMnHCk tMnLCk SCLK tSuDi tHdDi DIN tSuHUd UPDATE tMnLUd tPdDo DOUT SCLK EXAMPLE OF 6-BIT SERIAL CONTROL WORD FOR OUTPUT CONTROL NEXT CONTROL WORD INPUT ADDRESS 0 (LSB) = 0 INPUT ADDRESS 1 = 1 INPUT ADDRESS 2 = 1 INPUT ADDRESS 3 (MSB) = 1 16 x 16 CROSSPOINT = 6-BIT CONTROL WORD GAIN SET = +1V/V OUTPUT ENABLED DIN OUTPUT (i) ENABLED, AV = +1V/V, CONNECTED TO INPUT 14 Figure 4. 6-Bit Control Word and Programming Example (Mode 1: Complete Matrix Mode Programming) UPDATE 1 MODE 1 0 0 6-BIT CONTROL WORD DIN OUT2 OUT1 OUT0 MOST-SIGNIFICANT OUTPUT BUFFER CONTROL BITS ARE SHIFTED IN FIRST, I.E., OUT15, THEN OUT14, ETC. LAST 6 BITS SHIFTED IN PRIOR TO UPDATE NEGATIVE EDGE PROGRAM OUT0. Figure 5. Mode 1: Complete Matrix Mode Programming 34 ______________________________________________________________________________________ 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers Power-On Reset The power-on reset ensures all output buffers are in a disabled state when power is initially applied. A VDD voltage comparator generates the power-on reset. When the voltage at VDD is less than 2.5V, the poweron-reset comparator pulls RESET low through internal circuitry. As the digital supply voltage ramps up crossing 2.5V, the MAX4355 holds RESET low for 40ns (typ). Connecting a small capacitor from RESET to DGND extends the power-on-reset delay. See RESET Delay vs. RESET Capacitance in the Typical Operating Characteristics. Thermal Shutdown The MAX4355 features thermal shutdown protection with temperature hysteresis. When the die temperature exceeds +150C, the MAX4355 pulls RESET low, disabling the output buffers. When the die cools by 20C, the RESET pulldown is deasserted, and output buffers remain disabled until the device is programmed again. Applications Information Building Large Video-Switching Systems The MAX4355 can be easily used to create larger switching matrices. The number of ICs required to implement the matrix is a function of the number of input channels, the number of outputs required, and whether the array needs to be nonblocking. The most straightforward technique for implementing nonblocking matrices is to arrange the building blocks in a grid. The inputs connect to each vertical bank of devices in parallel with the other banks. The outputs of each building block in a vertical column connect together in a wired-OR configuration. Figure 6 shows a 128-input, 32-output, nonblocking array using the MAX4355 16 x 16 crosspoint devices. The wired-OR connection of the outputs shown in the diagram is possible because the outputs of the IC devices can be placed in a disabled or high-imped- ance output state. This disable state of the output buffers is designed for a maximum impedance vs. frequency while maintaining a low-output capacitance. These characteristics minimize the adverse loading effects from the disabled outputs. Larger arrays are constructed by extending this connection technique to more devices. Driving a Capacitive Load Figure 6 shows an implementation requiring many outputs to be wired together. This creates a situation where each output buffer sees not only the normal load impedance, but also the disabled impedance of all the other outputs. This impedance has a resistive and a capacitive component. The resistive components reduce the total effective load for the driving output. Total capacitance is the sum of the capacitance of all the disabled outputs and is a function of the size of the matrix. Also, as the size of the matrix increases, the length of the PC board traces increases, adding more capacitance. The output buffers have been designed to drive more than 30pF of capacitance while still maintaining a good AC response. Depending on the size of the array, the capacitance seen by the output can exceed this amount. There are several ways to improve the situation. The first is to use more building-block crosspoint devices to reduce the number of outputs that need to be wired together (Figure 7). In Figure 7, the additional devices are placed in a second bank to multiplex the signals. This reduces the number of wired-OR connections. Another solution is to put a small resistor in series with the output before the capacitive load to limit excessive ringing and oscillations. Figure 8 shows the graph of the Optimal Isolation Resistor vs. Capacitive Load. A lowpass filter is created from the series resistor and parasitic capacitance to ground. A single R-C does not affect the performance at video frequencies, but in a very large system there may be many R-Cs cascaded in series. The cumulative effect is a slight rolling off of the high frequencies causing a "softening" of the picture. There are two solutions to achieve higher performance. One way is to design the PC board traces associated with the outputs such that they exhibit some inductance. By routing the traces in a repeating "S" configuration, the traces that are nearest each other exhibit a mutual inductance increasing the total inductance. This series inductance causes the amplitude response to increase or peak at higher frequencies, offsetting the rolloff from the parasitic capacitance. Another solution is to add a small-value inductor to the output. ______________________________________________________________________________________ 35 MAX4355 released, the output buffers remain disabled. The outputs may be enabled by sending a new 96-bit data word or a 16-bit individual output address word. A reset is initiated from any of three sources. RESET can be driven low by external circuitry to initiate a reset, or RESET can be pulled low by internal circuitry during power-up (power-on reset) or thermal shutdown. Since driving RESET low only clears the output buffer enable bit in the matrix control latches, RESET can be used to disable all outputs simultaneously. If no new data has been loaded into the 96-bit complete matrix mode register, a single UPDATE restores the previous matrix control settings. MAX4355 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers IN (0-15) IN (16-31) IN (32-47) IN (48-63) 16 16 IN MAX4355 OUT 16 16 IN MAX4355 OUT 16 16 IN MAX4355 OUT 16 16 IN MAX4355 OUT 16 16 IN MAX4355 OUT 16 16 IN MAX4355 OUT 16 IN 16 16 IN MAX4355 OUT 16 MAX4355 OUT OUTPUTS (0-15) IN (64-79) IN (80-95) IN (96-111) IN (112-127) 16 16 IN MAX4355 OUT 16 IN 16 16 16 IN MAX4355 OUT 16 16 IN MAX4355 OUT 16 16 IN MAX4355 OUT 16 16 IN MAX4355 OUT 16 16 IN MAX4355 OUT 16 16 IN MAX4355 OUT MAX4355 OUT OUTPUTS (16-32) Figure 6. 128 x 32 Nonblocking Matrix Using 16 x 16 Crosspoint Devices Crosstalk Signal and Board Routing Issues Improper signal routing causes performance problems such as crosstalk. The MAX4355 has a typical crosstalk rejection of -62dB at 6MHz. A bad PC board layout degrades the crosstalk rejection by 20dB or more. To achieve the best crosstalk performance: 1) Place ground isolation between long critical signal PC board trace runs. These traces act as a shield to potential interfering signals. Crosstalk can be degraded by parallel traces as well as directly above and below on adjoining PC board layers. 2) Maintain controlled-impedance traces. Design as many of the PC board traces as possible to be 75 transmission lines. This lowers the impedance of the traces, reducing a potential source of crosstalk. More power is dissipated due to the output buffer driving a lower impedance. 3) Minimize ground-current interaction by using a good ground plane strategy. In addition to crosstalk, another key issue of concern is isolation. Isolation is the rejection of undesirable feedthrough from input to output with the output disabled. The MAX4355 achieves a -110dB isolation at 6MHz by selecting the pinout configuration such that the inputs and outputs are on opposite sides of the package. Coupling through the power supply is a function of the quality and location of the supply bypassing. Use appropriate low-impedance components and locate them as close as possible to the IC. Avoid routing the inputs near the outputs. 36 IN (0-15) 16 16 IN MAX4355 OUT IN (16-31) 16 16 IN MAX4355 OUT IN (32-47) 16 16 IN MAX4355 OUT 16 16 IN MAX4355 OUT OUTPUTS (0-15) 16 16 IN MAX4355 OUT IN (48-63) 16 16 IN MAX4355 OUT Figure 7. 64 x 16 Nonblocking Matrix with Reduced Capacitive Loading Power-Supply Bypassing The MAX4355 operates from a single +5V or dual 3V to 5V supplies. For single-supply operation, connect all VEE pins to ground and bypass all power-supply pins with a 0.1F capacitor to ground. For dual-supply systems, bypass all supply pins to ground with 0.1F capacitors. Power in Large Systems The MAX4355 has been designed to operate with split supplies down to 3V or a single supply of +5V. Operating at the minimum supply voltages reduces the ______________________________________________________________________________________ 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers OPTIMAL ISOLATION RESISTANCE vs. CAPACITIVE LOAD 30 The MAX4355 output buffers can be programmed to either AV = +1V/V or +2V/V. The +1V/V configuration is typically used when driving a short-length (less than 3cm), high-impedance "local" PC board trace. To drive a cable or a 75 transmission line trace, program the gain of the output buffer to +2V/V and place a 75 resistor in series with the output. The series termination resistor and the 75 load impedance act as a voltagedivider that divides the video signal in half. Set the gain to +2V/V to transmit a standard 1V video signal down a cable. The series 75 resistor is called the back-match, reverse termination, or series termination. This 75 resistor reduces reflections, and provides isolation, increasing the output-capacitive-driving capability. 25 Matrix Programming Individual Output Address Mode (Mode 0) In Individual Output Address Mode, the devices are connected in a serial bus configuration, with the data routing gate (Figure 3) connecting DIN to DOUT, making each device a virtual node on the serial bus. A single 16-bit control word is sent to all devices simultaneously. Only the device with the corresponding chip address responds to the programming word, and updates its output. In this mode, the chip address is set through hardware pin strapping of A3-A0. The host then communicates with the device by sending a 16-bit word consisting of 2 don't care MSB bits, 4 chip address bits, and 10 bits of data to make the word exactly 2 bytes in length. The 10 data bits are broken down into 4 bits to select the output to be programmed; 1 bit to set the output enable; 1 bit to set gain; and 4 bits to select the input to be connected to that output. In this method, the matrix is programmed one output at a time. ISOLATION RESISTANCE () Driving a PC Board Interconnect or a Cable (AV = +1V/V or +2V/V) The MAX4355's unique digital interface simplifies programming multiple MAX4355 devices in an array. Multiple devices are connected with DOUT of the first device connecting to DIN of the second device, and so on (Figure 9). Two distinct programming modes, individual output address mode (MODE = 0) and complete matrix mode (MODE = 1), are selected by toggling a single MODE control pin high or low. Both modes operate with the same physical board layout. This allows initial programming of the IC by daisy-chaining and sending one long data word while still being able to address immediately and update individual locations in the matrix. MAX4355 power dissipation by as much 40% to 50%. At +5V, the MAX4355 consumes 195mW (0.76mW/point). 20 15 10 5 0 0 100 200 300 400 500 CAPACITIVE LOAD (pF) Figure 8. Optimal Isolation Resistor vs. Capacitive Load Complete Matrix Mode (Mode 1) In Complete Matrix Mode, the devices are connected in a daisy-chain fashion where n x 96 bits are sent to program the entire matrix, and where n = the number of MAX4355 devices connected in series. This long data word is structured such that the first bit is the LSB of the last device in the chain and the last data bit is the MSB of the first device in the chain. The total length of the data word is equal to the number of crosspoint devices to be programmed in series times 96 bits per crosspoint device. This programming method is most often used at startup to initially configure the switching matrix. +5V Single-Supply Operation with AV = +1V/V and +2V/V The MAX4355 guarantees operation with single +5V supply and gain of +1V/V for standard video input signals (1Vp-p). To implement a complete video matrix switching system capable of gain = +2V/V while operating with +5V single supply, combine the MAX4355 crosspoint switch with Maxim's low-cost, high-performance video amplifiers optimized for single +5V supply operation (Figure 10). The MAX4450 single and MAX4451 dual op amps are unity-gain-stable devices that combine high-speed performance with Rail-toRail(R) outputs. The common-mode input voltage range extends beyond the negative power-supply rail (ground in single-supply applications). The MAX4450 is available in the ultra-small 5-pin SC70 package, while the MAX4451 is available in a space-saving 8-pin SOT23. The MAX4383 is a quad op amp available in a 14-pin Rail-to-Rail is a registered trademark of Nippon Motorola, Ltd. ______________________________________________________________________________________ 37 MAX4355 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers CHIP ADDRESS = 0 DIN HOST CONTROLLER CHIP ADDRESS = 1 DOUT DIN MAX4355 A3 SCLK CHIP ADDRESS = 2 DOUT DIN MAX4355 A3 SCLK DOUT MAX4355 A3 SCLK CE A2 A1 MODE A1 A0 UPDATE A0 CE A2 CE A2 MODE A1 MODE UPDATE A0 UPDATE NEXT DEVICE VDD VDD VIRTUAL SERIAL BUS (MODE 0: INDIVIDUAL OUTPUT ADDRESS MODE) Figure 9. Matrix Mode Programming +5V +5V VCC OUT0 1Vp-p Z0 = 75 2Vp-p U2 IN0 OUT1 75 IN1 MONITOR 0 220F 75 OUT15 500 IN15 500 MAX4355 GND U2 = MAX4450 OR 1/4 MAX4383 VEE Figure 10. Typical Single +5V Supply Application TSSOP package. The MAX4380/MAX4381/MAX4382 and MAX4384 offer individual high-impedance output disable making these amplifiers suitable for wired-OR connections. 38 Chip Information TRANSISTOR COUNT: 24,467 PROCESS: BiCMOS ______________________________________________________________________________________ 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers N.C. N.C. VEE AGND IN3 AGND IN2 AGND IN1 AGND IN0 N.C. N.C. N.C. N.C. N.C. AGND AGND AGND VCC OUT0 VEE OUT1 N.C. N.C. 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 TOP VIEW 1 75 VCC AGND 2 74 OUT2 IN5 3 73 VEE AGND IN4 4 72 OUT3 IN6 5 71 VCC AGND 6 70 OUT4 IN7 7 69 VEE AGND 8 68 OUT5 IN8 9 67 VCC AGND 10 66 OUT6 IN9 11 65 VEE AGND 12 64 OUT7 VCC MAX4355 IN10 13 63 AGND 14 62 OUT8 IN11 15 61 VEE AGND 16 60 OUT9 IN12 17 59 VCC A3 18 58 OUT10 IN13 19 57 VEE A2 20 56 OUT11 IN14 39 40 41 42 43 44 45 46 47 48 49 50 N.C. N.C. N.C. N.C. N.C. AGND AGND VCC OUT15 VEE OUT14 DIN N.C. 36 UPDATE N.C. 35 RESET 38 34 MODE 37 33 VDD 32 VCC CE OUT13 51 31 52 25 SCLK 24 AOUT A0 VCC 30 VEE DGND 53 29 23 28 IN15 DOUT OUT12 N.C. 22 27 VCC 54 26 55 N.C. 21 A1 TQFP ______________________________________________________________________________________ 39 MAX4355 Pin Configuration 16 x 16 Nonblocking Video Crosspoint Switch with I/O Buffers 100L,TQFP.EPS MAX4355 Package Information Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time. 40 ____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 (c) 2001 Maxim Integrated Products Printed USA is a registered trademark of Maxim Integrated Products.