JAJSFI5 May 2018 LMX2572LP
PRODUCTION DATA.
| PIN | I/O | DESCRIPTION | |
|---|---|---|---|
| NAME | NO. | ||
| CE | 1 | Input | Chip enable. High impedance CMOS input. 1.8-V to 3.3-V logic. Active HIGH powers on the device. |
| CPout | 12 | Output | Charge pump output. Place C1 of loop filter close to this pin. |
| CSB | 24 | Input | SPI latch. High impedance CMOS input. 1.8-V to 3.3-V logic. |
| DAP | — | Ground | RF ground. |
| GND | 2, 4, 25, 31, 34, 39 | Ground | VCO ground. |
| 6, 14, 40 | Ground | Digital ground. | |
| 13 | Ground | Charge pump ground. | |
| MUXout | 20 | Output | Multiplexed output pin. Configurable between lock detect and register readback. |
| OSCinM | 9 | Input | Reference input clock (–). High impedance self-biasing pin. Requires AC-coupling. |
| OSCinP | 8 | Input | Reference input clock (+). High impedance self-biasing pin. Requires AC-coupling. |
| RampClk | 30 | Input | Ramp trigger in automatic ramping mode or ramp clock in manual ramping mode. Can also be used as FSK I2S clock input. High impedance CMOS input. 1.8-V to 3.3-V logic. |
| RampDir | 32 | Input | Ramp trigger in automatic ramping mode or ramp segment selection in manual ramping mode. Can also be used as FSK I2S data input. High impedance CMOS input. 1.8-V to 3.3-V logic. |
| RFoutAM | 22 | Output | Differential output A (–). Low impedance output. Requires AC-coupling. |
| RFoutAP | 23 | Output | Differential output A (+). Low impedance output. Requires AC-coupling. |
| RFoutBM | 18 | Output | Differential output B (–). Low impedance output. Requires AC-coupling. |
| RFoutBP | 19 | Output | Differential output B (+). Low impedance output. Requires AC-coupling. |
| SCK | 16 | Input | SPI clock. High impedance CMOS input. 1.8-V to 3.3-V logic. |
| SDI | 17 | Input | SPI data. High impedance CMOS input. 1.8-V to 3.3-V logic. |
| SYNC | 5 | Input | Phase synchronization trigger. Configurable to accept CMOS input (1.8-V to 3.3-V logic) or differential input. |
| SysRefReq | 28 | Input | FSK I2S Frame Sync input. High impedance CMOS input. 1.8-V to 3.3-V logic. |
| VbiasVARAC | 33 | Bypass | VCO Varactor bias. Connect a 10-µF decoupling capacitor to VCO ground. |
| VbiasVCO | 3 | Bypass | VCO bias. Connect a 470-nF (X7R) decoupling capacitor to VCO ground as close to this pin as possible. |
| VbiasVCO2 | 27 | Bypass | VCO bias. Connect a 100-nF (X7R) decoupling capacitor to VCO ground. |
| VccBUF | 21 | Supply | Supply for output buffers. Connect a 0.1-µF decoupling capacitor to RF ground. |
| VccCP | 11 | Supply | Supply for charge pump. Connect a 0.1-µF decoupling capacitor to charge pump ground. |
| VccDIG | 7 | Supply | Digital power supply. Connect a 0.1-µF decoupling capacitor to digital ground. |
| VccMASH | 15 | Supply | Digital power supply. Connect a 1-µF decoupling capacitor to digital ground. |
| VccVCO | 37 | Supply | Supply for VCO. Connect a 1-µF decoupling capacitor to VCO ground. |
| VccVCO2 | 26 | Supply | Supply for VCO. Connect a 1-µF decoupling capacitor to VCO ground. |
| VrefVCO | 36 | Bypass | VCO supply reference. Connect a 10-µF decoupling capacitor to VCO ground. |
| VrefVCO2 | 29 | Bypass | VCO supply reference. Connect a 10-µF decoupling capacitor to VCO ground. |
| VregIN | 10 | Bypass | Input reference path regulator output. Connect a 1-µF decoupling capacitor to RF ground as close to this pin as possible. |
| VregVCO | 38 | Bypass | VCO regulator node. Connect a 10-nF decoupling capacitor to VCO ground. |
| Vtune | 35 | Input | VCO tuning voltage input. Connect a 1.5-nF or more capacitor to VCO ground. See External Loop Filter for details. |