integer-n synthesizer - smt 8 8 - 2 for price, delivery, and to place orders, please contact hittite microwave corporation: 20 alpha road, chelmsford, ma 01824 phone: 978-250-3343 fax: 978-250-3373 order on-line at www.hittite.com general description features functional diagram the HMC440QS16G(e) is an integer-n synthesizer that incorporates a 10 to 1300 mhz digital phase- frequency detector with 10 to 2800 mhz 5-bit frequency counter (continuous division from 2 to 32) in miniature 16 lead qsop plastic packages. it is intended for use in low phase noise offset- synthesizer applications. the HMC440QS16G(e)s combination of high frequency operation along with ultra low phase noise oor make possible synthesizers with wide loop bandwidth and low n resulting in fast settling and very low phase noise. when used in conjunction with a differential loop ampli er, the HMC440QS16G(e) generates an output voltage that can be used to phase lock a vco to a reference oscillator. ultra low ssb phase noise floor: -153 dbc/hz @ 10 khz offset @ 100 mhz reference frequency. programmable divider (n = 2 - 32) operating up to 2.8 ghz open collector output buffer ampli ers for interfacing w/ op-amp based loop filter qsop16g smt package: 29.4 mm 2 electrical speci cations, t a = +25 c, vcc= 5v typical applications the HMC440QS16G(e) is ideal for: ? satellite communication systems ? point-to-point radios ? military applications ? sonet clock generation parameter conditions min. typ. max. units maximum ref. input frequency sine or square wave input 1300 mhz minimum ref. input frequency square wave input 10 mhz reference input power range 100 mhz frequency -10 +10 dbm maximum vco input frequency sine or square wave input 2800 mhz minimum vco input frequency square wave input 10 mhz vco input power range 100 mhz input frequency -15 +10 dbm output voltage 200 ohm pull up to vcc 2000 mv, pk - pk ssb phase noise @ 10 khz offset @ 100 mhz ref. input, pin= 0 dbm -153 dbc/hz supply current 250 ma 2.8 ghz integer-n synthesizer (n = 2 - 32) HMC440QS16G / 440qs16ge v03.0808
integer-n synthesizer - smt 8 8 - 3 for price, delivery, and to place orders, please contact hittite microwave corporation: 20 alpha road, chelmsford, ma 01824 phone: 978-250-3343 fax: 978-250-3373 order on-line at www.hittite.com error voltage vs. frequency, pin= 0 dbm* error voltage vs. supply voltage, pin= 0 dbm, fin= 640 mhz* error voltage vs. temperature, pin= 0 dbm, fin= 640 mhz* ssb phase noise performance, pin= 0 dbm, fin= 100 mhz ssb phase noise performance, pin= 0 dbm, t= 25 c * see gain & error voltage test circuit herein. -1.2 -0.8 -0.4 0 0.4 0.8 1.2 -p -p/2 0 p/2 p 50 mhz 640 mhz 1280 mhz error voltage (vdc) phase difference (rad) -1.2 -0.8 -0.4 0 0.4 0.8 1.2 -p -p/2 0 p/2 p +25 c +85 c -40 c error voltage (vdc) phase difference (rad) -180 -150 -120 -90 -60 -30 0 10 2 10 3 10 4 10 5 10 6 +25c +85c -40c ssb phase noise (dbc/hz) offset frequency (hz) -180 -150 -120 -90 -60 -30 0 10 2 10 3 10 4 10 5 10 6 100 mhz 1280 mhz ssb phase noise (dbc/hz) offset frequency (hz) -1.2 -0.8 -0.4 0 0.4 0.8 1.2 -p -p/2 0 p/2 p vcc=4.8v vcc=5.0v vcc=5.2v error voltage (vdc) phase difference (rad) HMC440QS16G / 440qs16ge v03.0808 2.8 ghz integer-n synthesizer (n = 2 - 32)
integer-n synthesizer - smt 8 8 - 4 for price, delivery, and to place orders, please contact hittite microwave corporation: 20 alpha road, chelmsford, ma 01824 phone: 978-250-3343 fax: 978-250-3373 order on-line at www.hittite.com typical dc characteristics @ vcc = +5v symbol characteristics +25c units min. typ. max. icc power supply current 229 250 266 ma voh output high voltage 5.0 5.0 5.0 v vol output low voltage 2.9 3 3.1 v absolute maximum ratings rf input (vcc= +5v) +13 dbm supply voltage (vcc) +5.5v counter logic input (a 0 - a 4 ) -0.5v to (0.5v + vcc) channel temperature (tc) 135 c continuous pdiss (t = 85 c) (derate 56.8 mw/ c above 85 c) 2.84 w thermal resistance (junction to ground paddle) 17.6 c/w storage temperature -65 to +150 c operating temperature -40 to +85 c typical supply current vs. vcc vcc (vdc) icc (ma) 4.8 229 5.0 250 5.2 266 note: HMC440QS16G will work over full voltage range above. outline drawing electrostatic sensitive device observe handling precautions notes: 1. leadframe material: copper alloy 2. dimensions are in inches [millimeters] 3. dimension does not include moldflash of 0.15mm per side. 4. dimension does not include moldflash of 0.25mm per side. 5. all ground leads and ground paddle must be soldered to pcb rf ground. part number package body material lead finish msl rating package marking [3] HMC440QS16G low stress injection molded plastic sn/pb solder msl1 [1] h440 xxxx HMC440QS16Ge rohs-compliant low stress injection molded plastic 100% matte sn msl1 [2] h440 xxxx [1] max peak re ow temperature of 235 c [2] max peak re ow temperature of 260 c [3] 4-digit lot number xxxx package information HMC440QS16G / 440qs16ge v03.0808 2.8 ghz integer-n synthesizer (n = 2 - 32)
integer-n synthesizer - smt 8 8 - 5 for price, delivery, and to place orders, please contact hittite microwave corporation: 20 alpha road, chelmsford, ma 01824 phone: 978-250-3343 fax: 978-250-3373 order on-line at www.hittite.com pin description pin number function description interface schematic 1 2 fout nfout (these pins are dc coupled and must be dc blocked externally). both outputs are test ports only and are intended for use with hi-impedance scope probes. 3 4 nd d down output compliment down output 5 6 nu u up output compliment up output 7 8 ref nref (these pins are ac coupled and must be dc blocked externally.) reference input reference input compliment 9 vcc supply voltage 5v 0.2v 10 - 14 a0 - a4 cmos compatible control input bit 0 (lsb) - 4. 15 16 vco nvco (these pins are ac coupled and must be dc blocked externally.) vco input vco input compliment HMC440QS16G / 440qs16ge v03.0808 2.8 ghz integer-n synthesizer (n = 2 - 32)
integer-n synthesizer - smt 8 8 - 6 for price, delivery, and to place orders, please contact hittite microwave corporation: 20 alpha road, chelmsford, ma 01824 phone: 978-250-3343 fax: 978-250-3373 order on-line at www.hittite.com HMC440QS16G programming truth table function (lsb) a0 a1 a2 a3 a4 output low 0 0 0 0 0 / 2 1 0 0 0 0 / 3 0 1 0 0 0 / 4 1 1 0 0 0 ------ / 32 1 1 1 1 1 note: a0 through a4 are cmos compatible logic control inputs. evaluation pcb circuit * choose values of r2 & r4 between 4.3 and 20 ohms for best noise performance. HMC440QS16G / 440qs16ge v03.0808 2.8 ghz integer-n synthesizer (n = 2 - 32)
integer-n synthesizer - smt 8 8 - 7 for price, delivery, and to place orders, please contact hittite microwave corporation: 20 alpha road, chelmsford, ma 01824 phone: 978-250-3343 fax: 978-250-3373 order on-line at www.hittite.com evaluation pcb list of materials for evaluation pcb 105811 [1] item description j1 - j6 pc mount sma rf connector j7 2 mm dc header c1-c4, c7, c8 100 pf capacitor, 0402 pkg. c5, c6, c9 1000 pf capacitor, 0603 pkg. c10 4.7 f capacitor r1, r3 200 ohm resistor, 0603 pkg. r2 [3] , r4 [3] 4.3 ohm resistor, 0603 pkg. r5 resistor network, 10k ohm u1 HMC440QS16G / HMC440QS16Ge pcb [2] 105738 eval board [1] reference this number when ordering complete evaluation pcb [2] circuit board material: rogers 4350 [3] choose values of r2 & r4 between 4.3 and 20 ohms for best noise performance the circuit board used in the nal application should use rf circuit design techniques. signal lines should have 50 ohm impedance while the package ground leads and backside ground slug should be connected directly to the ground plane similar to that shown. a sufficient number of via holes should be used to connect the top and bottom ground planes. the evaluation circuit board shown is available from hittite upon request. note: the evaluation pcb for the HMC440QS16G contains 10k ohm pull up resistors for each of the ve control inputs a0 through a4. programming the 31 distinct division ratios consists of installing or removing jumpers s1 through s5, as shown below. function s1 s2 s3 s4 s5 output low 0 0 0 0 0 / 2 1 0 0 0 0 / 3 0 1 0 0 0 / 4 1 1 0 0 0 ------ / 32 1 1 1 1 1 note: 0 = jumper installed. 1 = jumper not installed. evaluation pcb truth table HMC440QS16G / 440qs16ge v03.0808 2.8 ghz integer-n synthesizer (n = 2 - 32)
integer-n synthesizer - smt 8 8 - 8 for price, delivery, and to place orders, please contact hittite microwave corporation: 20 alpha road, chelmsford, ma 01824 phone: 978-250-3343 fax: 978-250-3373 order on-line at www.hittite.com typical pll application circuit using HMC440QS16G pll application shown for a 14.0 ghz fout. contact hmc to discuss your speci c application. gain & error voltage test circuit: gain & error voltage data taken using test circuit below. loop lter gain has been subtracted from the result. HMC440QS16G / 440qs16ge v03.0808 2.8 ghz integer-n synthesizer (n = 2 - 32)
integer-n synthesizer - smt 8 8 - 9 for price, delivery, and to place orders, please contact hittite microwave corporation: 20 alpha road, chelmsford, ma 01824 phone: 978-250-3343 fax: 978-250-3373 order on-line at www.hittite.com applications information simpli ed block diagram of 5-bit counter asynchronous programming the 5-bit programmable counter counts-down from the programmed value of the data bits to zero and issues an output pulse at the end of each cycle. settling time of the programmable 5-bit counter is de ned as the maximum time required for the counter to change the division ratio n to a new value after the data bits have settled. the worst case settling time occurs if the data bits a0 thru a4 are changing during the load cycle. under this condition, the data bits may potentially be erroneous when they are clocked in and in the worst case could be all 1s, requiring 32 clock cycles until the correct data is re-loaded into the ip ops. the worst case asynchronous settling time can be calculated as follows: t settling max = 32/f in (for asynchronous programming) as an example, if the input frequency is 1 ghz, the maximum settling time is 32 ns HMC440QS16G / 440qs16ge v03.0808 2.8 ghz integer-n synthesizer (n = 2 - 32)
integer-n synthesizer - smt 8 8 - 10 for price, delivery, and to place orders, please contact hittite microwave corporation: 20 alpha road, chelmsford, ma 01824 phone: 978-250-3343 fax: 978-250-3373 order on-line at www.hittite.com synchronous programming for applications which can not tolerate a momentary unde ned division ratio, which normally occurs while changing the data bits (a0-a4) at random, synchronous programming can be used. data is loaded into the counter on every rising edge of the clock which occurs while the output (out) is high. the typical minimum setup and hold times are shown in the table below as a function of frequency. for precision applications, the rising edge of the complementary output may be used to latch the new data bits (a0-a4), so that all bits are settled before the next load cycle. t settling max = n/f in (for synchronous programming) where n is the desired division ratio, and f in = input frequency (hz) programmable divider timing requirements for synchronous programming in out out cur r e nt data ne w data a0-a4 t su t hold data load rising edge rising edge to clock new data parameter 0.5 ghz 1 ghz 2 ghz t setup 200 ps 200 ps 200 ps t hold 700 ps 300 ps 120 ps HMC440QS16G / 440qs16ge v03.0808 2.8 ghz integer-n synthesizer (n = 2 - 32)
integer-n synthesizer - smt 8 8 - 11 for price, delivery, and to place orders, please contact hittite microwave corporation: 20 alpha road, chelmsford, ma 01824 phone: 978-250-3343 fax: 978-250-3373 order on-line at www.hittite.com cmos/ttl input characteristics maximum input logic 0 voltage (v il maximum ) = 1.1v @ 1 a. minimum input logic 1 voltage (v ih minimum ) = 1.8v @ 50 a. input iv characteristics for the logic inputs (a0-a4) are shown below: -0.1 0 0.1 0.2 0.3 0.4 012345 input current (ma) input voltage (v) v il max v ih min HMC440QS16G / 440qs16ge v03.0808 2.8 ghz integer-n synthesizer (n = 2 - 32)
|
