JAJSO88 October 2023 LMK04714-Q1
PRODUCTION DATA
PARAMETER | TEST CONDITIONS | MIN | TYP | MAX | UNIT | ||
---|---|---|---|---|---|---|---|
Current Consumption | |||||||
ICC | Power Down Supply Current | Device Powered Down | 3.3 | 5 | mA | ||
Supply Current(1) | PLL1 locked to external VCXO and PLL2 locked to internal VCO | 4 CML 32 mA clocks in bypass 3 LVDS clock /12 4 SYSREF as LCPECL 3 SYSREF as LVDS |
980 | ||||
4 CML 32 mA clocks in bypass 3 LVDS clock /12 4 SYSREF as LCPECL (low state) 3 SYSREF as LVDS (low state) |
850 | ||||||
4 CML 32 mA clocks in bypass 3 LVDS clock /12 7 SYSREF outputs powered down |
700 | ||||||
CLKIN Specifications | |||||||
fCLKINx | LOS Circuitry | LOS_EN = 1 | 0.001 | 125 | MHz | ||
PLL1 | CLKinX-TYPE = 1 (MOS) | AC Coupled Input | 0.001 | 250 | |||
CLKinX-TYPE = 0 (Bipolar) | AC Coupled Input | 0.001 | 750 | ||||
PLL2 | CLKinX_TYPE = 0 (Bipolar) | AC Coupled Input | 0.001 | 500 | |||
0-delay | 0-delay with external feedback (CLKIN1) | AC Coupled Input | 0.001 | 750 | |||
Distribution Mode | CLKIN1/FIN1 Pin only | AC Coupled Input | 0.001 | 3250 | |||
SLEWCLKIN | Input Slew Rate(2) | 0.15 | 0.5 | V/ns | |||
VCLKINx/FIN1 | Single-ended clock input voltage | Input pin AC coupled; complementary pin AC coupled to GND | 0.5 | 2.4 | Vpp | ||
VIDCLKINx/FIN1 | Differential clock input voltage(3) | AC coupled | 0.125 | 1.55 | |V| | ||
VSSCLKINx/FIN1 | 0.25 | 3.1 | Vpp | ||||
|VCLKINx-offset| | DC offset voltage between CLKINx_P /CLKINx_N. Each Pin AC Coupled | CLKIN0/1/2 (Bipolar) | 0 | |mV| | |||
CLKIN0/1 (MOS) | 55 | ||||||
CLKIN2 (MOS) | 20 | ||||||
VCLKINVIH | High Input Voltage | VCLKIN – VIH | DC Coupled Input | 2 | Vcc | V | |
VCLKINVIL | Low Input Voltage | VCLKIN – VIL | DC Coupled Input | 0 | 0.4 | V | |
FIN0 Input Pin | |||||||
fFIN0 | External Input Frequency | AC Coupled Slew Rate > 150 V/us | FIN0_DIV2_EN = 1 | 1 | 3250 | MHz | |
fFIN0 | FIN0_DIV2_EN = 2 | 1 | 6400 | MHz | |||
VIDFIN0 | Differential Input Voltage | AC Coupled | 0.125 | 1.55 | Vpp | ||
VSSFIN0 | 0.25 | 3.1 | Vpp | ||||
PLL 1 Specifications | |||||||
fPD1 | Phase Detector Frequency | 40 | MHz | ||||
PN10kHz | PLL Normalized 1/f Noise(4) | PLL1_CP_GAIN = 350 µA | –117 | dBc/Hz | |||
PLL1_CP_GAIN = 1550 µA | –118 | ||||||
PN FOM | PLL Figure of Merit(5) | PLL1_CP_GAIN = 350 µA | –221.5 | ||||
PLL1_CP_GAIN = 1550 µA | –223 | ||||||
ICPOUT1 | Charge Pump Current(6) | VCPout = VCC/2 | PLL1_CP_GAIN = 0 | 50 | µA | ||
PLL1_CP_GAIN = 1 | 150 | ||||||
PLL1_CP_GAIN = 2 | 250 | ||||||
PLL1_CP_GAIN = 4 | 450 | ||||||
PLL1_CP_GAIN = 8 | 850 | ||||||
ICPOUT1%MIS | Charge Pump Sink / Source Mismatch | VCPout1 = VCC/2, TA = 25°C | VCPout1 = VCC/2, TA = 25°C | 1 | 10 | % | |
ICPOUT1VTUNE | Magnitude of Charge Pump Current Variation versus Charge Pump Voltage | 0.5 V < VCPout1 < VCC – 0.5 V, TA = 25°C | 0.5 V < VCPout1 < VCC – 0.5 V, TA = 25°C | 1 | 10 | % | |
ICPOUT1%TEMP | Charge Pump Current vs. Temperature Varation | 2 | 10 | % | |||
ICPOUT1TRI | Charge Pump TRI_STATE Leakage Current | 10 | nA | ||||
OSCIN Input | |||||||
fOSCIN | EN_PLL2_REF_2X = 0 | 0.001 | 500 | MHz | |||
EN_PLL2_REF_2X = 1 | 0.001 | 320 | |||||
SLEWOSCIN | Input Slew Rate | 0.15 | 0.5 | V/ns | |||
VOSCIN | Input voltage for OSCIN_P or OSCIN_N | AC coupled; single-ended; unused pin AC coupled to GND | 0.2 | 2.4 | Vpp | ||
VIDOSCIN | Differential voltage swing(3) | AC coupled | 0.2 | 1.55 | |V| | ||
VSSOSCIN | 0.4 | 3.1 | Vpp | ||||
VCLKINxOffset | DC offset voltage between CLKINx_P/CLKINx_N. Each Pin AC Coupled | 20 | mV | ||||
PLL 2 Specifications | |||||||
fPD | Phase Detector Frequency | 320 | MHz | ||||
PN10kHz | PLL Normalized 1/f Noise(4) | PLL2_CP_GAIN = 1600 µA | –123 | dBc/Hz | |||
PLL2_CP_GAIN = 3200 µA | –128 | ||||||
PN FOM | PLL Figure of Merit(5) | PLL2_CP_GAIN = 1600 µA | –226.5 | ||||
PLL2_CP_GAIN = 3200 µA | –230 | ||||||
ICPOUT | Charge Pump Current Magnitude(6) | VCPOUT = VCC/2 | PLL2_CP_GAIN = 2 | 1600 | µA | ||
PLL2_CP_GAIN=3 | 3200 | ||||||
ICPOUT1%MIS | Charge Pump Sink / Source Mismatch | VCPOUT = VCC/2, T = 25°C | VCPOUT1 = Vcc/2, T = 25°C | 1 | 10 | % | |
ICPout1VTUNE | Magnitude of Charge Pump Current Variation versus Charge Pump Voltage | 0.5 V < VCPOUT1 < VCC – 0.5 V, TA = 25°C | 0.5 V < VCPOUT1 < VCC – 0.5 V, TA = 25°C | 2 | 10 | % | |
ICPOUT%TEMP | Charge Pump Current versus Temperature Variation | 3 | 10 | % | |||
ICPOUT1TRI | Charge Pump TRI_STATE Leakage Current | 10 | nA | ||||
Internal VCO Specifications | |||||||
fVCO | VCO Frequency Range | VCO0 | 2440 | 2600 | MHz | ||
VCO1 | 2945 | 3255 | |||||
KVCO | VCO Tuning Sensitivity | VCO0 | 13 | MHz/V | |||
VCO1 | 26 | ||||||
|ΔTCL| | Allowable temperature Drift for Continous Lock(7) | VCO0 | 150 | oC | |||
Allowable temperature Drift for Continous Lock(7) | VCO1 | 180 | oC | ||||
L(f)VCO | Open Loop VCO Phase Noise | VCO0 at 2440 MHz | 10 kHz | –88.4 | dBc/Hz | ||
100 kHz | –117 | ||||||
800 kHz | –137.5 | ||||||
1 MHz | –139.7 | ||||||
10 MHz | –152.6 | ||||||
VCO0 at 2580 MHz | 10 kHz | –85.7 | |||||
100 kHz | –115.8 | ||||||
800 kHz | –137 | ||||||
1 MHz | –138.6 | ||||||
10 MHz | –151.8 | ||||||
L(f)VCO | Open Loop VCO Phase Noise | VCO1 at 2945 MHz | 10 kHz | –82.6 | dBc/Hz | ||
100 kHz | –112.3 | ||||||
800 kHz | –134.9 | ||||||
1 MHz | –137.2 | ||||||
10 MHz | –151.1 | ||||||
VCO1 at 3250 MHz | 10 kHz | –81 | |||||
100 kHz | –110.4 | ||||||
800 kHz | –134.3 | ||||||
1 MHz | –135.6 | ||||||
10 MHz | –149.3 | ||||||
Output Clock Skew and Timing | |||||||
SKEWCLKOUTX | Output to Output Skew | Same Pair of Device clocks and same format | 35 | ps | |||
Even to Even or Odd to Odd, Same Format | 15 | ||||||
Even clock to Odd Clock | 35 | ||||||
Additive Jitter in Distribution Mode from FIN Pin (note 6) | |||||||
L(f)CLKOUT | Additive jitter, Distribution mode with no divide | 245.76 MHz Output Frequency, 12 kHz to 20 MHz integration bandwidth | LVCMOS | 50 | fs | ||
LVDS | 50 | ||||||
LVPECL | 40 | ||||||
LCPECL | 35 | ||||||
HSDS | 40 | ||||||
CML | 35 | ||||||
LVCMOS Outputs | |||||||
fCLKOUT | Frequency | 5 pF Load | 250 | MHz | |||
L(f)CLKOUT | Noise Floor | 245.76 MHz | 20 MHz Offset | –160 | dBc/Hz | ||
VOH | Output High Voltage | 1 mA load | Vcc – 0.1 | V | |||
VOL | Output Low Voltage | 1 mA load | 0.1 | V | |||
IOH | Output High Current | FD = 1.65 V | –28 | mA | |||
IOL | Output Low Current | Vd = 1.65 V | 28 | mA | |||
ODC | Output Duty Cycle | 50 | % | ||||
LVDS Clock Outputs | |||||||
L(f)CLKOUT | Noise Floor | 245.76 MHz output | 20 MHz Offset | –159.5 | dBc/Hz | ||
TR/TF | 20% to 80% Rise/Fall Time, fOUT≥ 1 GHz | 175 | ps | ||||
VOD | Differential Output Voltage | DC Measurement, AC coupled to receiver input RL = 100 Ω differential | 350 | mV | |||
ΔVOD | Change in VOD for complimentary output states | –60 | 60 | mV | |||
VOS | Output Offset Voltage | 1.125 | 1.25 | 1.375 | V | ||
ΔVOS | Change on VOS for complimentary Output states | 35 | mV | ||||
ISHORT | Short circuit Output Current | –24 | 24 | mA | |||
LCPECL Clock Outputs | |||||||
L(f)CLKOUT | Noise Floor | 245.76 MHz output | 20 MHz Offset | –162.5 | dBc/Hz | ||
TR/TF | 20% to 80% Rise/Fall Time | fOUT ≥ 1 GHz | 135 | ps | |||
VOH | Output High Voltage | DC Measurement with 50 Ω to 0.5 V | 1.4 | V | |||
VOL | Output Low Voltage | 0.6 | V | ||||
VOD | Differential Output Voltage | DC Measurement with 50 Ω to 0.5 V | 870 | mV | |||
LVPECL Clock Outputs | |||||||
L(f)CLKOUT | Noise Floor | 245.76 MHz output, LVPECL 2.0 V | 20 MHz Offset | –163 | dBc/Hz | ||
TR/TF | 20% to 80% Rise/Fall Time | fOUT ≥ 1 GHz | 135 | ps | |||
VOH | Output High Voltage | DC Measurement termination 50 Ω to VCC - 2 V | LVPECL 1.6 V | VCC – 1 | V | ||
LVPECL 2.0 V | VCC – 1.1 | ||||||
VOL | Output Low Voltage | LVPECL 1.6 V | VCC – 1.8 | V | |||
LVPECL 2.0 V | VCC – 2 | ||||||
VOD | Differential Output Voltage | 2.5 GHz, Em = 120 Ω to GND, RL = AC coupled 100 Ω | LVPECL 1.6 V | 0.7 | V | ||
LVPECL 2.0 V | 0.9 | ||||||
HSDS Clock Outputs | |||||||
L(f)CLKOUT | Noise Floor | 245.76 MHz output | 20 MHz Offset | –162 | dBc/Hz | ||
TR/TF | 20% to 80% Rise/Fall Time | fOUT ≥ 1 GHz | 170 | ps | |||
VOH | Output High Voltage | DC Measurement with 50 Ω to 0.5 V | HSDS 6 mA | VCC – 0.9 | V | ||
HSDS 8 mA | VCC – 1.0 | ||||||
VOL | Output Low Voltage | HSDS 6 mA | VCC – 1.5 | V | |||
HSDS 8 mA | VCC – 1.7 | ||||||
VOD | Output Voltage | DC Measurement with 50 Ω to 0.5 V | HSDS 6 mA | 0.5 | V | ||
HSDS 8 mA | 0.75 | ||||||
ΔVOD | Change on VOS for complimentary Output states | HSDS 6 mA | –80 | 80 | mV | ||
HSDS 8 mA | –115 | 115 | |||||
CML Outputs | |||||||
L(f)CLKOUT | Noise Floor | 20 MHz Offset | –163 | dBc/Hz | |||
TR/TF | 20% to 80% Rise/Fall Time | fOUT ≥ 1.5 GHz | CML 16 mA | 140 | ps | ||
CML 24 mA | 140 | ||||||
CML 32 mA | 140 | ||||||
VOH | Output High Voltage | 50 Ω pullup to VCC, DC Measurement | VCC – 1 | V | |||
VOL | Output Low Voltage | 50 Ω pullup to VCC, DC Measurement | CML 16 mA | VCC – 0.8 | V | ||
CML 24 mA | VCC – 0.1 | ||||||
CML 32 mA | VCC – 1.4 | ||||||
VOD | Output Voltage | 50 Ω pullup to VCC, DC Measurement | CML 16 mA | 680 | mV | ||
CML 24 mA | 1000 | ||||||
CML 32 mA | 1300 | ||||||
50 Ω pullup to VCC, DC Measurement, RL = AC coupled 100 Ω, 250 MHz | CML 16 mA | 550 | mV | ||||
CML 24 mA | 815 | ||||||
CML 32 mA | 1070 | ||||||
Digital Outputs (CLKin_SELX,STATUS_LDX, and RESET/GPO,SDIO) | |||||||
VOH | Output High Voltage | VCC – 0.4 | V | ||||
VOL | Output Low Voltage | 0.4 | V | ||||
Digital Inputs | |||||||
VIH | High-level input voltage | 1.2 | V | ||||
VIL | Low-level input voltage | 0.5 | V | ||||
IIH | High-level input current | RESET/GPO,SYNC,SCK,SDIO, CS# | 80 | uA | |||
SYNC | VIH = VCC | 25 | |||||
IIL | Low-level input current | CLKINX_SEL,RESET/GPO,SYNC,SCK,SDIO, CS# | –5 | 5 | uA | ||
IIL | Low-level input current | SYNC | VIL = 0 V | –5 | 5 |