SNAS322C February 2006 – January 2016 LMX2487
PRODUCTION DATA.
MIN | MAX | UNIT | ||
---|---|---|---|---|
VCC | Power supply voltage | –0.3 | 4.25 | V |
Vi | Voltage on any pin with GND = 0 V | –0.3 | VCC + 0.3 | V |
TL | Lead temperature (solder 4 seconds) | 260 | °C | |
Tstg | Storage temperature | –65 | 150 | °C |
VALUE | UNIT | |||
---|---|---|---|---|
V(ESD) | Electrostatic discharge(1) | Human-body model (HBM) | ±2000 | V |
Charged-device model (CDM) | ±750 | |||
Machine model (MM) | ±200 |
MIN | NOM | MAX | UNIT | ||
---|---|---|---|---|---|
VCC | Power supply voltage(1) | 2.5 | 3 | 3.6 | V |
TA | Operating temperature | –40 | 25 | 85 | °C |
THERMAL METRIC(1) | LMX2485, LMX2485E | UNIT | |
---|---|---|---|
RTW (WQFN) | |||
24 PINS | |||
RθJA | Junction-to-ambient thermal resistance | 47.2 | °C/W |
RθJC(top) | Junction-to-case (top) thermal resistance | 43 | °C/W |
RθJB | Junction-to-board thermal resistance | 24 | °C/W |
ψJT | Junction-to-top characterization parameter | 0.8 | °C/W |
ψJB | Junction-to-board characterization parameter | 24 | °C/W |
RθJC(bot) | Junction-to-case (bottom) thermal resistance | 7 | °C/W |
PARAMETER | TEST CONDITIONS | MIN | TYP | MAX | UNIT | |||
---|---|---|---|---|---|---|---|---|
ICC PARAMETERS | ||||||||
ICCRF | Power supply current, RF synthesizer | IF PLL OFF RF PLL ON Charge Pump TRI-STATE |
5.7 | mA | ||||
ICCIF | Power supply current, IF synthesizer | IF PLL ON RF PLL OFF Charge Pump TRI-STATE |
2.5 | mA | ||||
ICCTOTAL | Power supply current, entire synthesizer | IF PLL ON RF PLL ON Charge Pump TRI-STATE |
8.5 | mA | ||||
ICCPD | Power-down current | CE = ENOSC = 0 V CLK, DATA, LE = 0 V |
< 1 | µA | ||||
RF SYNTHESIZER PARAMETERS | ||||||||
fFinRF | Operating frequency | LMX2487 | RF_P = 16 | 1000 | 4000 | MHz | ||
RF_P = 32 | 1000 | 6000 | ||||||
pFinRF | Input sensitivity | –10 | 0 | dBm | ||||
fCOMP | Phase detector frequency(1) | 50 | MHz | |||||
ICPoutRFSRCE | RF charge pump source current(2) | RF_CPG = 0 VCPoutRF = VCC/2 |
95 | µA | ||||
RF_CPG = 1 VCPoutRF = VCC/2 |
190 | µA | ||||||
... | ... | µA | ||||||
RF_CPG = 15 VCPoutRF = VCC/2 |
1520 | µA | ||||||
ICPoutRFSINK | RF charge pump sink current(2) | RF_CPG = 0 VCPoutRF = VCC/2 |
–95 | µA | ||||
RF_CPG = 1 VCPoutRF = VCC/2 |
–190 | µA | ||||||
... | ... | µA | ||||||
RF_CPG = 15 VCPoutRF = VCC/2 |
–1520 | µA | ||||||
ICPoutRFTRI | RF charge pump TRI-STATE current magnitude | 0.5 ≤ VCPoutRF ≤ VCC -0.5 | 2 | 10 | nA | |||
| ICPoutRF%MIS | | Magnitude of RF CP sink vs CP source mismatch | VCPoutRF = VCC/2 TA = 25°C |
RF_CPG > 2 | 3% | 10% | |||
RF_CPG ≤ 2 | 3% | 13% | ||||||
| ICPoutRF%V | | Magnitude of RF CP current vs CP voltage | 0.5 ≤ VCPoutRF ≤ VCC -0.5 TA = 25°C |
2% | 8% | ||||
| ICPoutRF%T | | Magnitude of RF CP current vs temperature | VCPoutRF = VCC/2 | 4% | |||||
IF SYNTHESIZER PARAMETERS | ||||||||
fFinIF | Operating frequency | IF_P = 8 | 250 | 2000 | MHz | |||
IF_P = 16 | 250 | 3000 | ||||||
pFinIF | IF input sensitivity | –10 | 5 | dBm | ||||
fCOMP | Phase detector frequency | 10 | MHz | |||||
ICPoutIFSRCE | IF charge pump source current | VCPoutIF = VCC/2 | 3.5 | mA | ||||
ICPoutIFSINK | IF charge pump sink current | VCPoutIF = VCC/2 | –3.5 | mA | ||||
ICPoutIFTRI | IF charge pump TRI-STATE current magnitude | 0.5 ≤ VCPoutIF ≤ VCC RF -0.5 | 2 | 10 | nA | |||
| ICPoutIF%MIS | | Magnitude of IF CP sink vs CP source mismatch | VCPoutIF = VCC/2 TA = 25°C |
1% | 8% | ||||
| ICPoutIF%V | | Magnitude of IF CP current vs CP voltage | 0.5 ≤ VCPoutIF ≤ VCC -0.5 TA = 25°C |
4% | 10% | ||||
| ICPoutIF%TEMP | Magnitude of IF CP current vs temperature | VCPoutIF = VCC/2 | 4% | |||||
OSCILLATOR PARAMETERS | ||||||||
fOSCin | Oscillator operating frequency | OSC2X = 0 | 5 | 110 | MHz | |||
OSC2X = 1 | 5 | 20 | MHz | |||||
vOSCin | Oscillator input sensitivity | 0.5 | VCC | VP-P | ||||
IOSCin | Oscillator input current | –100 | 100 | µA | ||||
SPURS | ||||||||
Spurs in band(3) | –55 | dBc | ||||||
PHASE NOISE | ||||||||
LF1HzRF | RF synthesizer normalized phase noise contribution(4) | RF_CPG = 0 | –202 | dBc/Hz | ||||
RF_CPG = 1 | –204 | |||||||
RF_CPG = 3 | –206 | |||||||
RF_CPG = 7 | –210 | |||||||
RF_CPG = 15 | –210 | |||||||
LF1HzIF | IF synthesizer normalized phase noise contribution | –209 | dBc/Hz | |||||
DIGITAL INTERFACE (DATA, CLK, LE, ENOSC, CE, Ftest/LD, FLoutRF) | ||||||||
VIH | High-level input voltage | 1.6 | VCC | V | ||||
VIL | Low-level input voltage | 0.4 | V | |||||
IIH | High-level input current | VIH = VCC | –1 | 1 | µA | |||
IIL | Low-level input current | VIL = 0 V | –1 | 1 | µA | |||
VOH | High-level output voltage | IOH = –500 µA | VCC – 0.4 | V | ||||
VOL | Low-level output voltage | IOL = 500 µA | 0.4 | V |
MIN | NOM | MAX | UNIT | |||
---|---|---|---|---|---|---|
MICROWIRE INTERFACE TIMING | ||||||
tCS | Data to clock set-up time | See Figure 1 | 25 | ns | ||
tCH | Data to clock hold time | See Figure 1 | 8 | ns | ||
tCWH | Clock pulse width high | See Figure 1 | 25 | ns | ||
tCWL | Clock pulse width low | See Figure 1 | 25 | ns | ||
tES | Clock to load enable set-up time | See Figure 1 | 25 | ns | ||
tEW | Load enable pulse width | See Figure 1 | 25 | ns |
TA = 25°C, OSC_2X = 0 |
VCC = 3.0 V, IF_P = 16 |
FinRF INPUT IMPEDANCE | ||
---|---|---|
FREQUENCY (MHz) | REAL (Ω) | IMAGINARY (Ω) |
3000 | 39 | –94 |
3200 | 37 | –86 |
3400 | 33 | –78 |
3600 | 30 | –72 |
3800 | 28 | –69 |
4000 | 26 | –66 |
4250 | 24 | –63 |
4500 | 23 | –60 |
4750 | 22 | –57 |
5000 | 20 | –54 |
5250 | 19 | –50 |
5500 | 18 | –49 |
5750 | 17 | –47 |
6000 | 17 | –45 |
6250 | 16 | –44 |
6500 | 16 | –42 |
6750 | 16 | –40 |
7000 | 16 | –39 |
FinIF INPUT IMPEDANCE | ||
---|---|---|
FREQUENCY (MHz) | REAL (Ω) | IMAGINARY (Ω) |
100 | 508 | –233 |
150 | 456 | –215 |
200 | 420 | –206 |
250 | 403 | –205 |
300 | 370 | –207 |
400 | 344 | –215 |
500 | 207 | –223 |
600 | 274 | –225 |
700 | 242 | –225 |
800 | 242 | –225 |
900 | 214 | –222 |
1000 | 171 | –208 |
1200 | 137 | –191 |
1400 | 112 | –176 |
1600 | 91 | –158 |
1800 | 76 | –139 |
2000 | 62 | –122 |
2200 | 51 | –105 |
2300 | 46 | –96 |
2400 | 42 | –88 |
2600 | 37 | –74 |
2800 | 29 | –63 |
3000 | 25 | –54 |
FREQUENCY (MHz) | POWERED UP | POWERED DOWN | ||||
---|---|---|---|---|---|---|
REAL | IMAGINARY | MAGNITUDE | REAL | IMAGINARY | MAGNITUDE | |
5 | 1730 | –3779 | 4157 | 392 | –8137 | 8146 |
10 | 846 | –2236 | 2391 | 155 | –4487 | 4490 |
20 | 466 | –1196 | 1284 | 107 | –2215 | 2217 |
30 | 351 | –863 | 932 | 166 | –1495 | –1504 |
40 | 316 | –672 | 742 | 182 | –1144 | 1158 |
50 | 278 | –566 | 631 | 155 | –912 | 925 |
60 | 261 | –481 | 547 | 153 | –758 | 774 |
70 | 252 | –425 | 494 | 154 | –652 | 669 |
80 | 239 | –388 | 456 | 147 | –576 | 595 |
90 | 234 | –358 | 428 | 145 | –518 | 538 |
100 | 230 | –337 | 407 | 140 | –471 | 492 |
110 | 225 | –321 | 392 | 138 | –436 | 458 |
120 | 219 | –309 | 379 | 133 | –402 | 123 |
130 | 214 | –295 | 364 | 133 | –374 | 397 |
140 | 208 | –285 | 353 | 132 | –349 | 373 |
150 | 207 | –279 | 348 | 133 | –329 | 355 |
CE = High | ||
VCC = 3 V |
VCC = 3 V |
VCC = 3 V |
VCC = 3 V | ||