HMC677LP5E

HMC677LP5 / 677LP5E v05.0810 6-Bit SERIAL/PARALLEL SWITCH DRIVER/CONTROLLER Features Accepts Serial or Parallel Data Compatible with TTL and CMOS Logic Complementary Outputs 6-Bit Control Word Power-up State Selection Low Power Consumption Fast Clock Rate Typical Applications The HMC677LP5(E) is ideal for: • Microwave and Millimeterwave Control Circuits • Test and Measurement Equipment • Complex Multi-Function Assemblies • Military and Space Subsystems • Transmit/Receive Module Controllers 5 INTERFACE - SMT Functional Diagram General Description The HMC677LP5(E) is a multi-function BiCMOS control interface IC which is ideal for driving the gates of FET and pHEMT based MMIC control devices. This unique IC can be used to simplify the control of microwave and millimeterwave transmit/receive modules, military subsystems, and multi-throw/ multi-port test and measurement equipment. The HMC677LP5(E) accepts serial or parallel data, and can drive up to 6 complementary sets of outputs. The HMC677LP5(E) also provides additional functionality such as a power-up state selection, adjustable output voltage levels, and a latched parallel control mode which allows multiple control devices to share a common data bus. The HMC677LP5(E) is ideal for controlling digital phase shifters, digital attenuators, digital variable gain amplifiers, and switching matrices embedded in complex microwave and millimeterwave assemblies. Electrical Specifications, TA = +25° C, Vdd1 = Vdd2 = +5V, Vee = -5V, Voph = 0V Parameter Input High Voltage, Vih Low Voltage, Vil Output High Voltage, Voh (Ioh = 1 mA, Vee = -4.5V) Output Low Voltage, Vol (Iol = 2 mA, Vee = -4.5V) Maximum Input Leakage Current, Iin Propagation Delay, tplh Maximum Serial Bit Rate Maximum I/O Update Rate Min 2 Voph - 0.1 Typ Max 0.8 Vee + 0.1 1 80 10 100 Units V V V V µA nS Mbps ns 5-1 For price, delivery and to place orders: Hittite Microwave Corporation, 20 Alpha Road, Chelmsford, MA 01824 Phone: 978-250-3343 Fax: 978-250-3373 Order On-line at www.hittite.com Application Support: Phone: 978-250-3343 or apps@hittite.com HMC677LP5 / 677LP5E v05.0810 6-Bit SERIAL/PARALLEL SWITCH DRIVER/CONTROLLER Serial Control Interface The HMC677LP5(E) contains a 3-wire SPI compatible digital interface (DATA, CLK, LE). It is activated when P/S is kept high. The 6-bit serial word must be loaded MSB first. The positive-edge sensitive CLK and LE requires clean transitions. Standard logic families work well. When LE is high, 6-bit data in the serial input register is transferred to the outputs. When LE is high CLK is masked to prevent data transition during output loading. When P/S is low, 3-wire SPI interface inputs (DATA, CLK, LE) are disabled and the serial input register is loaded asynchronously with parallel digital inputs (I0-I5). When LE is high, 6-bit parallel data is transferred. For all modes of operations, the outputs will stay constant while LE is kept low. 5 INTERFACE - SMT Parameter Min. serial period, tSCK Control set-up time, tCS Control hold-time, tCH LE setup-time, tLN Min. LE pulse width, tLEW Min LE pulse spacing, tLES Serial clock hold-time from LE, tCKN Hold Time, tPH. Latch Enable Minimum Width, tLEN Setup Time, tPS Typ. 100 ns 20 ns 20 ns 10 ns 10 ns 630 ns 10 ns 0 ns 10 ns 2 ns Timing Diagram (Latched Parallel Mode) Parallel Mode (Direct Parallel Mode & Latched Parallel Mode) Note: The parallel mode is enabled when P/S is set to low. Direct Parallel Mode - Outputs are changed by the Control Voltage Inputs directly. The LE (Latch Enable) must be at a logic high to control in this manner. Latched Parallel Mode - Outputs are selected using the Control Voltage Inputs and set while the LE is in the Low state. This will not change state while LE is Low. Once all Control Voltage Inputs are at the desired states the LE is pulsed. See timing diagram above for reference. For price, delivery and to place orders: Hittite Microwave Corporation, 20 Alpha Road, Chelmsford, MA 01824 Phone: 978-250-3343 Fax: 978-250-3373 Order On-line at www.hittite.com Application Support: Phone: 978-250-3343 or apps@hittite.com 5-2 HMC677LP5 / 677LP5E v05.0810 6-Bit SERIAL/PARALLEL SWITCH DRIVER/CONTROLLER Operating Ranges Function Vdd Vee Voph [1] Voph - Vee Vdd - Vee Ta Parameter Positive DC Supply Voltage Negative DC Supply Voltage DC Output Supply Negative Supply Voltage Range Positive to Negative Supply Range Operating Ambient Temperature DC Output Current - High DC Output Current - Low Min. 4.5 -5.5 0 4.5 9 -40 1 2 Typ. 5.0 -5.0 10 25 Max 5.5 -4.5 2.2 7.7 11 85 Units V V V V V C mA mA 5 INTERFACE - SMT loh [2] lol [2] [1] Voph can be used from 0V to 2.2V. Higher voltages can be used to increase low frequency performance of GaAs switches. [2] Ioh and Iol are measured at 0.1V variation from Voph and Vee. DC Characteristics Function Vih Vil Voh Vol lin Idd ^ Idd Parameter Input High Voltage Input Low Voltage Output High Voltage Output Low Voltage Input Leakage Current Quiescent Supply Current Additional Supply Current Per TTL Input Pin Conditions High Input Voltage Low Input Voltage Ioh = 1 mA Iol = 2 mA Vin = Vdd or GND Vdd = Max Vdd = Max Vee = -4.5V Vee = -4.5V Vdd = Max Vin = Vdd or GND Vin = 2V Min. 2.0 Voph - 0.1 Typ. Max 0.8 Vee +0.1 1 1.5 50 Units V V V V µA mA µA Worst Case AC Characteristics at Voph = 2.2V (Vdd = 4.5V, Vee = -4.5V) Function Tplh Tphl Ttlh Tthl Tskew Cpdd[1] Cpde[1] Parameter Rising Propagation Delay Falling Propagation Delay Output Rising Transition Time Output Falling Transition Time Delay Skew Power Dissipation Capacitance of Vdd Power Dissipation Capacitance of Vee -40 °C 30 30 30 15 50 100 400 +25 °C 30 30 40 20 50 100 400 +85 °C 30 30 40 20 50 100 400 Units ns ns ns ns nS pF pF Worst Case AC Characteristics at Voph = 0V (Vdd = 4.5V, Vee = -4.5V) Function Tplh Tphl Ttlh Tthl Tskew Cpdd[1] Cpde 1] [1] Parameter Rising Propagation Delay Falling Propagation Delay Output Rising Transition Time Output Falling Transition Time Delay Skew Power Dissipation Capacitance of Vdd Power Dissipation Capacitance of Vee 2 -40 °C 80 80 100 50 50 100 400 +25 °C 80 80 100 50 50 100 400 2 +85 °C 80 80 100 50 50 100 400 Units ns ns ns ns nS pF pF Total Power Dissipation is calculated by the following formula: PD = Vdd f Cpdd + (Voph - Vee) f Cpde, where f = frequency in Hz 5-3 For price, delivery and to place orders: Hittite Microwave Corporation, 20 Alpha Road, Chelmsford, MA 01824 Phone: 978-250-3343 Fax: 978-250-3373 Order On-line at www.hittite.com Application Support: Phone: 978-250-3343 or apps@hittite.com HMC677LP5 / 677LP5E v05.0810 6-Bit SERIAL/PARALLEL SWITCH DRIVER/CONTROLLER Power-Up States If LE is set to logic LOW at power-up, the logic state of PUP1 and PUP2 determines the power-up state of the part per PUP truth table. If the LE is set to logic HIGH at power-up, the logic state of I5-I0 determines the power-up state of the part per truth table. The attenuator latches in the desired power-up state approximately 200 ms after power-up. Power-On Sequence The required power-up sequence is: GND, Vdd, Vee, Voph, Digital Inputs (I0 - I5). The relative application of input signal order of the digital inputs are not important. Deviations from this sequence may inadvertently forward bias ESD protection structures and damage them. For added protection you may install 2 kOhm resistors in series with each digital input signal line, however these resistors will increase the RC time constant. Control Voltage Table State Low High Vdd = +3V 0 to 0.5V @