DS91M047 DS91M047 125 MHz Quad M-LVDS Line Driver Literature Number: SNLS145D DS91M047 125 MHz Quad M-LVDS Line Driver General Description Features The DS91M047 is a high-speed quad M-LVDS line driver designed for driving clock or data signals to up to four multipoint networks. M-LVDS (Multipoint LVDS) is a new family of bus interface devices based on LVDS technology specifically designed for multipoint and multidrop cable and backplane applications. It differs from standard LVDS in providing increased drive current to handle double terminations that are required in multipoint applications. Controlled transition times minimize reflections that are common in multipoint configurations due to unterminated stubs. The DS91M047 accepts LVTTL/LVCMOS input levels and translates them to M-LVDS signal levels with transition times of greater than 1 ns. The device provides the DE and DE inputs that are ANDed together and control the TRI-STATE outputs. The DE and DE inputs are common to all four drivers. The DS91M047 has a flow-through pinout for easy PCB layout. The DS91M047 provides a new alternative for high speed multipoint interface applications. It is packaged in a space saving SOIC-16 package. DC - 125 MHz / 250 Mbps low jitter, low skew, low power operation Conforms to TIA/EIA-899 M-LVDS Standard Controlled transition times (2 ns typ) minimize reflections 8 kV ESD on M-LVDS pins protects adjoining components Flow-through pinout simplifies PCB layout Industrial operating temperature range (-40C to +85C) Available in a space saving SOIC-16 package Applications Multidrop / Multipoint clock and data distribution High-Speed, Low Power, Short-Reach alternative to TIA/EIA-485/422 Clock distribution in AdvancedTCA (ATCA) and MicroTCA (TCA, uTCA) backplanes Typical Application 20024002 (c) 2009 National Semiconductor Corporation 200240 www.national.com DS91M047 125 MHz Quad M-LVDS Line Driver November 9, 2009 DS91M047 Ordering Information Operating Temperature Package Type / Number Order Number -40C to +85C SOIC/M16A DS91M047TMA Connection Diagrams 20024001 20024003 Pin Descriptions Pin No. Name Description 2, 3, 6, 7 DI Driver input pin, LVCMOS compatible. 10, 11, 14, 15 A Non-inverting driver output pin, M-LVDS levels. 9, 12, 13, 16 B Inverting driver output pin, M-LVDS levels. 1 DE Driver enable pin: When DE is low, the driver is disabled. When DE is high and DE is low or open, the driver is enabled. If both DE and DE are open circuit, then the driver is disabled. 8 DE Driver enable pin: When DE is high, the driver is disabled. When DE is low or open and DE is high, the driver is enabled. If both DE and DE are open circuit, then the driver is disabled. 4 VDD Power supply pin, +3.3V 0.3V 5 GND Ground pin Truth Table Enables Input DE DE H L DI All other combinations of ENABLE inputs www.national.com 2 Outputs A B H L L H H L X Z Z ESD Susceptibility HBM If Military/Aerospace specified devices are required, please contact the National Semiconductor Sales Office/ Distributors for availability and specifications. CDM Power Supply Voltage -0.3V to +4V LVCMOS Input Voltage -0.3V to (VDD + 0.3V) M-LVDS Output Voltage -1.9V to +5.5V M-LVDS Output Short Circuit Current Duration Continuous Junction Temperature +140C Storage Temperature Range -65C to +150C Lead Temperature Range Soldering (4 sec.) +260C Maximum Package Power Dissipation @ +25C MA Package 2.21W Derate MA Package 19.2 mW/C above +25C Package Thermal Resistance (4-Layer, 2 oz. Cu, JEDEC) JA +52C/W JC +19C/W 8 kV 250V 1250V MM Note 1: Human Body Model, applicable std. JESD22-A114C Note 2: Machine Model, applicable std. JESD22-A115-A Note 3: Field Induced Charge Device Model, applicable std. JESD22-C101-C Recommended OperatingConditions Min Typ Max Units +3.0 +3.3 +3.6 V -1.4 +3.8 V Supply Voltage (VDD) Voltage at Any Bus Terminal (Separate or Common-Mode) High Level Input Voltage (VIH) 2.0 Low Level Input Voltage (VIL) 0 Operating Free Air Temperature (TA) -40 +25 VDD 0.8 V V +85 C DC Electrical Characteristics (Note 5, Note 6, Note 7, Note 9) Over supply voltage and operating temperature ranges, unless otherwise specified. Symbol Parameter Conditions Min Typ Max Units VDD V LVCMOS DC Specifications VIH High-Level Input Voltage 2.0 VIL Low-Level Input Voltage 0.8 V IIH High-Level Input Current VIH = 3.6V -15 1 15 A IIL Low-Level Input Current VIL = 0V -15 1 15 A VCL Input Clamp Voltage IIN = -18 mA -1.5 GND V M-LVDS DC Specifications |VAB| Differential Output Voltage Magnitude VAB Change in Differential Output Voltage Magnitude Between Logic States VOS(SS) Steady-State Common-Mode Output Voltage |VOS(SS)| Change in Steady-State Common-Mode Output Voltage Between Logic States VA(OC) Maximum Steady-State Open-Circuit Output Voltage VB(OC) Maximum Steady-State Open-Circuit Output Voltage VP(H) Voltage Overshoot, Low-to-High Level Output (Note 10) VP(L) Voltage Overshoot, High-to-Low Level Output (Note 10) IOS Output Short-Circuit Current (Note 8) RL = 50, CL = 5 pF Figures 1, 3 Figures 1, 2 RL = 50 Figure 4 IB IAB 650 mV -50 50 mV 2.10 V 0 50 mV 0 2.4 V 0 2.4 V 0.30 RL = 50, CL = 5 pF CD = 0.5 pF, Figures 6, 7 1.6 1.2VSS Figure 5 Driver High-Impedance Output Current Driver High-Impedance Output Current Driver High-Impedance Output Differential Curent (IA - IB) 3 V V -0.2VSS -43 43 mA 0 32 A VA = 0V or 2.4V, VB = 1.2V -20 20 A VA = -1.4V, VB = 1.2V -32 0 A VA = 3.8V, VB = 1.2V 0 32 A VA = 0V or 2.4V, VB = 1.2V -20 20 A VA = -1.4V, VB = 1.2V -32 0 A VA = VB, -1.4V V 3.8V -4 4 VA = 3.8V, VB = 1.2V IA 480 A www.national.com DS91M047 Absolute Maximum Ratings (Note 4) DS91M047 Symbol IA(OFF) Parameter Conditions Driver High-Impedance Output Power-Off Current VA = 3.8V, VB = 1.2V DE = 0V Min Typ Max Units A 0 32 -20 20 -32 0 0 32 -20 20 -32 0 -4 4 0V VDD 1.5V VA = 0V or 2.4V, VB = 1.2V DE = 0V A 0V VDD 1.5V VA = -1.4V, VB = 1.2V DE = 0V A 0V VDD 1.5V IB(OFF) Driver High-Impedance Output Power-Off Current VA = 3.8V, VB = 1.2V DE = 0V A 0V VDD 1.5V VA = 0V or 2.4V, VB = 1.2V DE = 0V A 0V VDD 1.5V VA = -1.4V, VB = 1.2V DE = 0V A 0V VDD 1.5V IAB(OFF) VA = VB, -1.4V V 3.8V DE = 0V Driver High-Impedance Output Power-Off Current (IA(OFF) - IB(OFF)) A 0V VDD 1.5V CA Driver Output Capacitance 7.8 pF CB Driver Output Capacitance 7.8 pF CAB Driver Output Differential Capacitance 3 pF CA/B Driver Output Capacitance Balance (CA/CB) ICC Power Supply Current ICCZ VDD = 0V 1 TRI-STATE Power Supply Current RL = 50 (All Outputs) DI = VDD or GND (All Inputs) DE = VDD, DE = GND f = 125 MHz 65 75 mA RL = 50 (All Outputs) DI = VDD or GND (All Inputs) DE = GND, DE = VDD 19 24 mA Note 4: "Absolute Maximum Ratings" indicate limits beyond which damage to the device may occur, including inoperability and degradation of device reliability and/or performance. Functional operation of the device and/or non-degradation at the Absolute Maximum Ratings or other conditions beyond those indicated in the Recommended Operating Conditions is not implied. The Recommended Operating Conditions indicate conditions at which the device is functional and the device should not be operated beyond such conditions. Note 5: The Electrical Characteristics tables list guaranteed specifications under the listed Recommended Operating Conditions except as otherwise modified or specified by the Electrical Characteristics Conditions and/or Notes. Typical specifications are estimations only and are not guaranteed. Note 6: Current into device pins is defined as positive. Current out of device pins is defined as negative. All voltages are referenced to ground except VOD and VOD. Note 7: Typical values represent most likely parametric norms for VDD = +3.3V and TA = +25C, and at the Recommended Operation Conditions at the time of product characterization and are not guaranteed. Note 8: Output short circuit current (IOS) is specified as magnitude only, minus sign indicates direction only. Note 9: CL includes fixture capacitance and CD includes probe capacitance. Note 10: Specification is guaranteed by characterization and is not tested in production. www.national.com 4 (Note 11, Note 12, Note 18) Over supply voltage and operating temperature ranges, unless otherwise specified. Min Typ Max Units tPHL Symbol Differential Propagation Delay High to Low Parameter Conditions 1.5 3.1 5.0 ns tPLH Differential Propagation Delay Low to High 1.5 3.1 5.0 ns tSKD1 Differential Pulse Skew |tPHL - tPLH| (Note 13, Note 14) 0 70 140 ps tSKD2 Channel-to-Channel Skew (Note 13, Note 15) 0 70 200 ps tSKD3 Differential Part-to-Part Skew (Note 13, Note 16) (Constant TA and VDD) 0 0.8 1.5 ns tSKD4 Differential Part-to-Part Skew (Note 17) 3.5 ns tTLH Rise Time (Note 13) 1.1 2.0 3.0 ns tTHL Fall Time (Note 13) 1.1 2.0 3.0 ns tPHZ Disable Time High to Z 12.5 ns tPLZ Disable Time Low to Z 7 12.5 ns tPZH Enable Time Z to High 7 12.5 ns tPZL Enable Time Z to Low RL = 50 CL = 5 pF, CD = 0.5 pF Figures 8, 9 7 7 12.5 fMAX Maximum Operating Frequency (Note 13) RL = 50 CL = 5 pF, CD = 0.5 pF Figures 6, 7 0 125 ns MHz Note 11: The Electrical Characteristics tables list guaranteed specifications under the listed Recommended Operating Conditions except as otherwise modified or specified by the Electrical Characteristics Conditions and/or Notes. Typical specifications are estimations only and are not guaranteed. Note 12: Typical values represent most likely parametric norms for VDD = +3.3V and TA = +25C, and at the Recommended Operation Conditions at the time of product characterization and are not guaranteed. Note 13: Specification is guaranteed by characterization and is not tested in production. Note 14: tSKD1, |tPLHD - tPHLD|, Pulse Skew, is the magnitude difference in differential propagation delay time between the positive going edge and the negative going edge of the same channel. Note 15: tSKD2, Channel-to-Channel Skew, is the difference in propagation delay (tPLHD or tPHLD) among all output channels. Note 16: tSKD3, Part-to-Part Skew, is defined as the difference between the minimum and maximum differential propagation delays. This specification applies to devices at the same VDD and within 5C of each other within the operating temperature range. Note 17: tSKD4, Part-to-Part Skew, is the differential channel-to-channel skew of any event between devices. This specification applies to devices over recommended operating temperature and voltage ranges, and across process distribution. tSKD4 is defined as |Max - Min| differential propagation delay. Note 18: CL includes fixture capacitance and CD includes probe capacitance. 5 www.national.com DS91M047 Switching Characteristics DS91M047 Parameter Measurement Information 20024033 FIGURE 1. Differential Driver Test Circuit 20024044 FIGURE 2. Differential Driver Waveforms 20024035 FIGURE 3. Differential Driver Full Load Test Circuit www.national.com 6 DS91M047 20024036 FIGURE 4. Differential Driver DC Open Test Circuit 20024037 FIGURE 5. Differential Driver Short-Circuit Test Circuit 20024004 FIGURE 6. Driver Propagation Delay and Transition Time Test Circuit 7 www.national.com DS91M047 20024038 FIGURE 7. Driver Propagation Delay and Transition Time Waveforms 20024006 FIGURE 8. Driver TRI-STATE Delay Test Circuit 20024007 FIGURE 9. Driver TRI-STATE Delay Waveforms www.national.com 8 DS91M047 Typical Performance Characteristics 20024050 20024052 Driver Rise Time as a Function of Temperature Driver Propagation Delay (tPLHD) as a Function of Temperature 20024051 Driver Fall Time as a Function of Temperature 20024053 Driver Propagation Delay (tPHLD) as a Function of Temperature 20024058 Driver Output Signal Amplitude as a Function of Resistive Load 20024054 Driver Power Supply Current as a Function of Frequency 9 www.national.com DS91M047 Physical Dimensions inches (millimeters) unless otherwise noted 16-Lead (0.150 Wide) Molded Small Outline Package, JEDEC Order Number DS91M047TMA NS Package Number M16A www.national.com 10 DS91M047 Notes 11 www.national.com DS91M047 125 MHz Quad M-LVDS Line Driver Notes For more National Semiconductor product information and proven design tools, visit the following Web sites at: Products Design Support Amplifiers www.national.com/amplifiers WEBENCH(R) Tools www.national.com/webench Audio www.national.com/audio App Notes www.national.com/appnotes Clock and Timing www.national.com/timing Reference Designs www.national.com/refdesigns Data Converters www.national.com/adc Samples www.national.com/samples Interface www.national.com/interface Eval Boards www.national.com/evalboards LVDS www.national.com/lvds Packaging www.national.com/packaging Power Management www.national.com/power Green Compliance www.national.com/quality/green Switching Regulators www.national.com/switchers Distributors www.national.com/contacts LDOs www.national.com/ldo Quality and Reliability www.national.com/quality LED Lighting www.national.com/led Feedback/Support www.national.com/feedback Voltage Reference www.national.com/vref Design Made Easy www.national.com/easy www.national.com/powerwise Solutions www.national.com/solutions Mil/Aero www.national.com/milaero PowerWise(R) Solutions Serial Digital Interface (SDI) www.national.com/sdi Temperature Sensors www.national.com/tempsensors SolarMagicTM www.national.com/solarmagic Wireless (PLL/VCO) www.national.com/wireless www.national.com/training PowerWise(R) Design University THE CONTENTS OF THIS DOCUMENT ARE PROVIDED IN CONNECTION WITH NATIONAL SEMICONDUCTOR CORPORATION ("NATIONAL") PRODUCTS. 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