ZHCSLT9B March 2022 – July 2022 LMK5B33216
PRODUCTION DATA
PARAMETER | TEST CONDITIONS | MIN | TYP | MAX | UNIT | |
---|---|---|---|---|---|---|
Current Consumption Characteristics | ||||||
IDD_TOT | Total current consumption with specified configuration | 312.5 MHz from OUT0 - OUT13 LVDS outputs, APLL3 post-divider = 8, channel dividers bypassed, DPLL1/2 and APLL1/2 disabled. | 702 | 850 | mA | |
ROM page 6, 325 MHz from OUT0 - OUT15, HSDS outputs, channel dividers enabled , APLL3 post divider bypassed, DPLL1/2 and APLL1/2 disabled | 1020 | 1230 | mA | |||
ROM page 0, APLL1/2/3 enabled | 1250 | 1460 | mA | |||
IDD-XO | XO input current consumption | XO | 3.5 | mA | ||
IDD-XO2X | Current consumption per XO doubler | XO doubler(1) | 0.3 | mA | ||
IDD-IN0 | Core current consumption per block | IN0 | 2.5 | mA | ||
IDD-INX | Core current consumption per block | IN0 or IN1 | 3.1 | mA | ||
IDD-DPLL | Current consumption per DPLL | DPLL(2) | 55 | mA | ||
IDD-APLL1 | APLL1 current consumption | APLL1 | 90 | mA | ||
IDD-APLL2 | APLL2 current consumption | APLL2 | 160 | mA | ||
IDD-APLL3 | APLL3 current consumption | APLL3 | 120 | mA | ||
IDD-ANA | Analog bias current consumption | Analog circuitry from VDD_APLL1 supply pin. Always on when device is enabled. | 42 | mA | ||
IDD-DIG | Digital control current consumption | Digital control circuitry from VDD_DIG supply pin., Always on when device is enabled. | 34 | mA | ||
IDDO-CHDIV | Current consumption per channel divider block | 12-bit channel divider | 20 | mA | ||
IDDO-1PPSDIV | Current consumption per 1-PPS/SYSREF divider block | 20-bit 1-PPS/SYSREF divider | 12 | mA | ||
IDDO-DELAY | Current consumption per 1-PPS/SYSREF analog delay block | Analog delay function enabled | 10 | mA | ||
IDDO-HSDS | HSDS current consumption per output driver | HSDS buffer (VCM level = s1, Iout = 4 mA, 100-Ω termination) | 19 | mA | ||
HSDS buffer (VCM level = s1, Iout = 7 mA, 100-Ω termination) | 22 | mA | ||||
HSDS buffer (VCM level = s1, Iout = 10 mA, 100-Ω termination) | 25 | mA | ||||
IDDO-HCSL | HCSL current consumption per output driver | HCSL output (50-Ω termination per side) | 30.5 | mA | ||
IDD_PD | Power-down current consumption | Device powered-down, PD# = LOW | 90 | 110 | mA | |
Reference Input Characteristics (INx) | ||||||
fIN | INx frequency range | Single-ended input | 0.5 | 200e6 | Hz | |
Differential input | 5 | 800 | ||||
VIH | Single-ended input high voltage | DC-coupled input mode (3) | 1.2 | VDD + 0.3 | V | |
VIL | Single-ended input low voltage | 0.5 | V | |||
VIN-SE-PP | Single-ended input voltage swing | AC-coupled input mode (4) | 0.4 | 2 | Vpp | |
VIN-DIFF-PP | Differential input voltage swing | AC- or DC- coupled input (5) | 0.4 | 2 | Vpp | |
VICM | Input Common Mode | DC coupled differential input | 0.1 | 2 | V | |
dV/dt | Input slew rate | Single-ended input | 0.2 | 0.5 | V/ns | |
Differential input | 0.2 | 0.5 | V/ns | |||
IDC | Input Clock Duty Cycle | Non 1-PPS signal | 40 | 60 | % | |
tPULSE-1PPS | 1-PPS pulse width for input | 1-PPS or pulsed signal | 100 | ns | ||
IIN-DC | DC input leakage current | Single pin INx_P or INx_N, 50-Ω and 100-Ω internal terminations disabled, AC coupled mode enabled or disabled | –350 | 350 | µA | |
CIN | Input capacitance | Single-ended, each pin | 2 | pF | ||
XO/TCXO Input Characteristics (XO) | ||||||
fCLK | XO input frequency range (6) | 10 | 156.25 | MHz | ||
VIH | LVCMOS Input high voltage | DC-coupled input mode (7) | 1.4 | VDD + 0.3 | V | |
VIL | LVCMOS Input low voltage | 0.8 | V | |||
VIN-SE | Single-ended input voltage swing | AC-coupled input mode (8) | 0.4 | VDD + 0.3 | Vpp | |
dV/dt | Input slew rate | 0.2 | 0.5 | V/ns | ||
IDC | Input duty cycle | 40 | 60 | % | ||
IIN-DC | DC Input leakage current | Single pin XO_P, 50-Ω and 100-Ω internal terminations disabled | –350 | 350 | µA | |
CIN | Input capacitance on each pin | 1 | pF | |||
CEXT | External AC coupling cap | 10 | nF | |||
APLL/VCO Characteristics | ||||||
fPFD | PFD frequency range | APLL3 Fractional feedback divider | 110 | MHz | ||
APLL1, APLL2 Fractional feedback divider | 125 | MHz | ||||
fVCO1 | VCO1 Frequency range | 4800 | 5350 | MHz | ||
fVCO2 | VCO2 Frequency range | 5595 | 5950 | MHz | ||
fVCO3 | VCO3 Frequency range | 2499.75 | 2500 | 2500.25 | MHz | |
tAPLL1-LOCK | APLL1 lock time | Time between soft or hard reset and stable APLL1 output. | 20 | 35 | ms | |
tAPLL2-LOCK | APLL2 lock time | Time between soft or hard reset and stable APLL2 output. | 350 | 460 | ms | |
tAPLL3-LOCK | APLL3 lock time. | Time between soft or hard reset and stable APLL3 output. | 12.5 | 13 | ms | |
HSDS Output Characteristics (OUTx) | ||||||
fOUT | Output frequency range | 1E–6 | 1250 | MHz | ||
VOUT-DIFF | Differential output swing | 2×VOD-HSDS | mVpp | |||
VOD-HSDS | HSDS output voltage swing | fout < 100 MHz, Iout = 4 mA | 350 | 400 | 440 | mV |
fout < 100 MHz, Iout = 7 mA | 625 | 700 | 750 | mV | ||
fout < 100 MHz, Iout = 10 mA | 900 | 975 | 1050 | mV | ||
100 MHz ≤ fout ≤ 325 MHz, Iout = 4 mA | 335 | 400 | 445 | mV | ||
100 MHz ≤ fout ≤ 325 MHz, Iout = 5 mA | 425 | 500 | 575 | mV | ||
100 MHz ≤ fout ≤ 325 MHz, Iout = 6 mA | 510 | 600 | 690 | mV | ||
100 MHz ≤ fout ≤ 325 MHz, Iout = 7 mA | 595 | 700 | 805 | mV | ||
100 MHz ≤ fout ≤ 325 MHz, Iout = 8 mA | 680 | 800 | 920 | mV | ||
100 MHz ≤ fout ≤ 325 MHz, Iout = 9 mA | 765 | 900 | 1035 | mV | ||
100 MHz ≤ fout ≤ 325 MHz, Iout = 10 mA | 850 | 1000 | 1150 | mV | ||
325 MHz < fout ≤ 800 MHz, Iout = 4 mA | 300 | 350 | 400 | mV | ||
325 MHz < fout ≤ 800 MHz, Iout = 7 mA | 580 | 640 | 700 | mV | ||
325 MHz < fout ≤ 800 MHz, Iout = 10 mA | 800 | 865 | 940 | mV | ||
800 MHz < fout ≤ 1250 MHz, Iout = 4 mA | 235 | 320 | 400 | mV | ||
800 MHz < fout ≤ 1250 MHz, Iout = 7 mA | 480 | 625 | 740 | mV | ||
800 MHz < fout ≤ 1250 MHz, Iout = 10 mA | 600 | 800 | 1000 | mV | ||
VOH | Output voltage high | VOL + VOD | mVpp | |||
VOL | Output voltage low | VCM level = s1 | 50 | 150 | 250 | mV |
VCM level = s2+3 | 300 | 470 | 720 | mV | ||
VCM | Output common mode voltage | VCM level = s1 or s2+3 | VOL + VOD/2 | V | ||
VCM level = s2, Iout = 4 mA | 0.6 | 0.7 | 0.8 | V | ||
VCM level = s3, Iout = 4 mA | 1.125 | 1.25 | 1.375 | V | ||
tSKEW | Output skew (12) | Same APLL, same post divider and channel divider values, same bank | 50 | ps | ||
Same APLL, same post divider and channel divider values, between banks | 80 | ps | ||||
tR/tF | Rise/Fall time | fOUT < 100 MHz, 20% to 80%, OUT_x_CAP_EN = 0, CL = 2 pF | 200 | 250 | 350 | ps |
100 MHz ≤ fOUT ≤ 325 MHz, 20% to 80%, Iout ≥ 8 mA, OUT_x_CAP_EN = 0, CL = 2 pF | 250 | 275 | 300 | ps | ||
100 MHz ≤ fOUT ≤ 325 MHz, 20% to 80%, OUT_x_CAP_EN = 0, CL = 2 pF | 175 | 230 | 300 | ps | ||
325 MHz < fOUT ≤ 800 MHz, 20% to 80%, OUT_x_CAP_EN = 0, CL = 2 pF | 150 | 215 | 285 | ps | ||
800 MHz < fOUT ≤ 1250 MHz, 20% to 80%, OUT_x_CAP_EN = 0, CL = 2 pF | 120 | 205 | 250 | ps | ||
ODC | Output duty cycle | 48 | 52 | % | ||
HCSL Output Characteristics (OUTx) | ||||||
fOUT | Output frequency range | HSCL output mode | 25 | 100 | 400 | MHz |
VOL | Output voltage low | –150 | 0 | 150 | mV | |
VOH | Output voltage high | 600 | 750 | 900 | mV | |
dV/dt | Differential output slew rate | ±150 mV around center point, OUT_x_CAP_EN = 1, CL= 2 pF | 2 | 4 | V/ns | |
dV/dt | Differential output slew rate | ±150 mV around center point,OUT_x_CAP_EN = 0, CL= 2 pF | 3 | 5 | V/ns | |
tSKEW | Output skew (12) | Same APLL, same post divider and channel divider values, same bank | 50 | ps | ||
Same APLL, same post divider and channel divider values, between banks | 80 | ps | ||||
VCROSS | Absolute voltage crossing point | fOUT = 100 MHz | 300 | 500 | mV | |
ΔVCROSS | Voltage crossing point variation | fOUT = 100 MHz | 75 | mV | ||
ODC | Output duty cycle | 45 | 55 | % | ||
1.8-V LVCMOS Output Characteristics (OUT0/1) | ||||||
fOUT | Output frequency range | 1E–6 | 200 | MHz | ||
VOH | Output high voltage | IOH = -2 mA | 1.5 | V | ||
VOL | Output low voltage | IOL = 2 mA | 0.2 | V | ||
tR/tF | Output rise/fall time | 20% to 80% | 150 | ps | ||
tSK | Output-to-output skew | OUT0_P, OUT0_N, OUT1_P, OUT1_N with same polarity, same APLL post divider and output divider values. Same polarity and output type (LVCMOS) | 60 | ps | ||
Same APLL, same post divider and output divider values. Skew between LVCMOS and differential outputs | 0.7 | 1 | 1.3 | ns | ||
ODC | Output duty cycle | 45 | 55 | % | ||
ROUT | Output impedance | 54 | 64 | 75 | Ω | |
2.65-V LVCMOS Output Characteristics (OUT0/1) | ||||||
fOUT | Output frequency range | 1E–6 | 200 | MHz | ||
VOH | Output high voltage | IOH = -2 mA | 2.3 | V | ||
VOL | Output low voltage | IOL = 2 mA | 0.2 | V | ||
tR/tF | Output rise/fall time | 20% to 80% | 150 | ps | ||
tSK | Output-to-output skew | OUT_P, OUT0_N, OUT1_P, OUT1_N with same polarity, same APLL post divider and output divider values. Same polarity and output type (LVCMOS) | 60 | ps | ||
Same APLL, same post divider and output divider values. Skew between LVCMOS and differential outputs | 0.7 | 1.0 | 1.3 | ns | ||
PNFLOOR | Output phase noise floor (fOFFSET > 10 MHz) |
25 MHz | –155 | dBc/Hz | ||
ODC | Output duty cycle | 45 | 55 | % | ||
ROUT | Output impedance | 40 | 50 | 65 | Ω | |
3.3-V LVCMOS GPIO Clock Output Characteristics (GPIO0/1/2) | ||||||
fOUT | Maximum output frequency | GPIO1, GPIO2 | 25 | MHz | ||
VOH | Output high voltage | IOH= 2 mA | 2.4 | V | ||
VOL | Output low voltage | IOL= 2 mA | 0.4 | V | ||
IIH | Input high current | VIN = VDD | 100 | µA | ||
IIL | Output low current | VIN = 0V | -100 | µA | ||
tR/tF | Output rise/fall time | 20% to 80%, 1 kΩ to GND | 0.5 | 1.3 | 2.6 | ns |
tSK | Output-to-output skew | GPIO1, GPIO2 output skew compared to OUT0_P, OUT0_N, OUT1_P, OUT1_N CMOS outputs. GPIOx_SEL = 115 fout = 100 kHz |
10.15 | ns | ||
ODC | Output duty cycle | 45 | 55 | % | ||
ROUT | Output impedance | 35 | 42 | 50 | Ω | |
PLL Output Clock Noise Characteristics | ||||||
RJAPLL3 | 12 kHz to 20 MHz integrated RMS jitter for APLL3 outputs | XO = 48 MHz, fout = 1250 MHz, post divider P1APLL3 = 2, HSDS output VOD ≥ 800 mV (9) | 45 | fs | ||
XO = 48 MHz, fout = 625 MHz, post divider P1APLL3 = 4, HSDS output VOD ≥ 800 mV (9) | 35 | 50 | fs | |||
XO = 48 MHz, fout = 500 MHz, post divider P1APLL3 = 5, HSDS output VOD ≥ 800 mV (9) | 50 | fs | ||||
XO = 48 MHz, fout = 312.5 MHz, post divider P1APLL3 = 8, HSDS output VOD ≥ 800 mV (9) | 42 | 60 | fs | |||
XO = 48 MHz, fout = 156.25 MHz, post divider P1APLL3 = 16, HSDS output VOD ≥ 800 mV (9) | 47 | 65 | fs | |||
XO = 48 MHz, fout = 312.5 MHz, bypass post divider P1APLL3 = 1, HSDS output VOD ≥ 800 mV (10) | 47 | 65 | fs | |||
XO = 48 MHz, fout = 156.25 MHz, bypass post divider P1APLL3 = 1, HSDS output VOD ≥ 800 mV (10) | 55 | 73 | fs | |||
XO = 48 MHz, fout = 312.5 MHz, HSDS output, all VOD levels | 50 | 80 | fs | |||
XO = 48 MHz, fout = 156.25 MHz, HSDS output, all VOD levels | 60 | 90 | fs | |||
RJAPLL2 | 12 kHz to 20 MHz integrated RMS jitter for APLL2 outputs | XO = 48 MHz, fout = 153.6 MHz (VCO2 = 5836.8 MHz), 155.52 MHz (VCO2 = 5598.72 MHz), 174.703084 MHz (VCO2 = 5765.2 MHz) or 184.32 MHz (VCO2 = 5898.24 MHz) from APLL2. HSDS output , VOD ≥ 800 mV from OUT4, OUT5, OUT6 and OUT7 or OUT2 and OUT3. 156.25 MHz from APLL3 output in all other output banks. |
110 | 150 | fs | |
XO = 48 MHz, fout = 161.1328125 MHz or 322.265625 MHz (VCO2 = 5800.78125 MHz), or 212.5 MHz (VCO2 = 5950 MHz) from APLL2. HSDS output , VOD ≥ 800 mV from OUT4, OUT5, OUT6 and OUT7 or OUT14 and OUT15. 156.25 MHz from APLL3 output in all other output banks. |
110 | 150 | fs | |||
XO = 48 MHz, fout = 245.76 MHz or 122.88 MHz (VCO2 = 5898.24 MHz) from APLL2. HSDS output , VOD ≥ 800 mV from OUT4, OUT5, OUT6 and OUT7 or OUT2 and OUT3. 156.25 MHz from APLL3 output in all other output banks. |
110 | 150 | fs | |||
XO = 48 MHz, fout = 156.25 MHz or 125 MHz (VCO2 = 5625 MHz), or 100 MHz (VCO2 = 5600 MHz) from APLL2. HSDS output , VOD ≥ 800 mV from OUT4, OUT5, OUT6 and OUT7 or OUT2 and OUT3. 156.25 MHz from APLL3 output in all other output banks. | 110 | 150 | fs | |||
RJAPLL1 | 12 kHz to 20 MHz integrated RMS jitter for APLL1 outputs | XO = 48 MHz, fout ≥ 100 MHz, HSDS output buffer VOD ≥ 800 mV | 200 | 300 | fs | |
PSNRVDDO_0_1 | Power supply noise rejection VDD_0_1 | Vcc = 3.3V, VN = 50 mVpp, HSDS, LVDS or LVPECL outputs. (12) | -105 | dBc | ||
PSNRVDDO_2_3 | Power supply noise rejection VDD_2_3 | Vcc = 3.3V, VN = 50 mVpp, HSDS, LVDS or LVPECL outputs. (12) | -105 | dBc | ||
PSNRVDDO_4_7 | Power supply noise rejection VDDO_4_7 | Vcc = 3.3V, VN = 50 mVpp, HSDS, LVDS or LVPECL outputs. (12) | -110 | dBc | ||
PSNRVDDO_8_13 | Power supply noise rejection VDDO_8_13 | Vcc = 3.3V, VN = 50 mVpp, HSDS, LVDS or LVPECL outputs. (12) | -110 | dBc | ||
PSNRVDDO_14_15 | Power supply noise rejection VDDO_14_15 | Vcc = 3.3V, VN = 50 mVpp, HSDS, LVDS or LVPECL outputs. (12) | -110 | dBc | ||
PSNRVDD_APLL1_XO | Power supply noise rejection VDD_APLL1_XO | Vcc = 3.3V, VN = 50 mVpp, HSDS, LVDS or LVPECL outputs. (12) | -100 | dBc | ||
PSNRVDD_APLL2 | Power supply noise rejection VDD_APLL2 | Vcc = 3.3V, VN = 50 mVpp, HSDS, LVDS or LVPECL outputs. (12) | -105 | dBc | ||
PSNRVDD_APLL3 | Power supply noise rejection VDD_APLL3 | Vcc = 3.3V, VN = 50 mVpp, HSDS, LVDS or LVPECL outputs. (12) | -105 | dBc | ||
PSNRVDD_DIG | Power supply noise rejection VDD_DIG | Vcc = 3.3V, VN = 50 mVpp, HSDS, LVDS or LVPECL outputs. (12) | -120 | dBc | ||
PCIe Jitter Characteristics | ||||||
JPCIE-Gen1-CC | PCIe Gen 1 (2.5 GT/s) Common Clock jitter | APLL3, APLL2 or APLL1 output | 0.8 | 5 | ps p-p | |
JPCIE-Gen2-CC | PCIe Gen 2 (5.0 GT/s) Common Clock jitter | APLL3, APLL2 or APLL1 output | 85 | 250 | fs RMS | |
JPCIe-Gen3-CC | PCIe Gen 3 (8 GT/s) Common Clock jitter | APLL3, APLL2 or APLL1 output | 25 | 100 | fs RMS | |
JPCIe-Gen4-CC | PCIe Gen 4 (16 GT/s) Common Clock jitter | APLL3, APLL2 or APLL1 output | 25 | 100 | fs RMS | |
JPCIe-Gen5-CC | PCIe Gen 5 (32 GT/s) Common Clock jitter | APLL3, APLL2 or APLL1 output | 9 | 50 | fs RMS | |
DPLL Characteristics | ||||||
fTDC | TDC rate range for DPLL1/DPLL2/DPLL3 | 1E–6 | 26 | MHz | ||
dφ/dt | Phase slew during switchover | Programmable range | 695 | ns/s | ||
DPLL-BW | DPLL loop bandwidth | Programmable loop bandwidth | 0.001 | 4000 | Hz | |
JPK | DPLL closed-loop jitter peaking | 0.1 | dB | |||
JTOL | Jitter tolerance | Compliant with G.8262 Options 1 and 2. Jitter modulation = 10 Hz, 25.78152 Gbps line rate | 6455 | UI p-p | ||
DCO Characteristics | ||||||
fDCO-DPLL | DPLL DCO frequency tuning range | DPLL3, DPLL2, DPLL1 | -200 | 200 | ppm | |
fDCO-APLL | DCO frequency tuning range | APLL3 in holdover or APLL only operation. | -200 | 200 | ppm | |
fDCO-APLL | DCO frequency tuning range | APLL2, APLL1 in holdover or APLL only operation. | -1000 | 1000 | ppm | |
Zero Delay Mode (ZDM) Characteristics | ||||||
fOUT-ZDM | Output frequency range with ZDM enabled | DPLL3: OUT0 or OUT10 | 1E–6 | 1250 | MHz | |
DPLL2: OUT0 or OUT4 | 1E–6 | 700 | MHz | |||
DPLL1: OUT0 | 1E–6 | 1250 | MHz | |||
tDLY-ZDM | Input-to-output propagation delay with ZDM enabled | OUT0, fIN ≤ fTDC_MAX, fOUT ≤ fTDC_MAX, DPLLx_PH_OFFSET = 172500 | 150 | ps | ||
tDLY-VAR-ZDM | Input-to-output propagation delay variation with ZDM enabled | OUT0, fIN ≤ fTDC_MAX, fOUT ≤ fTDC_MAX, DPLLx_PH_OFFSET = 0 | 65 | ±ps | ||
1-PPS Reference Characteristics | ||||||
tDPLL_FL | DPLL frequency lock time with 1-PPS reference | XO = 48 MHz, initial error = ±25 ppb, -180° ≤ Θ ≤ 180°. DPLL LBW = 10 mHz, frequency lock Δfout ≤ ±4.6 ppm | 5 | 6 | s | |
tDPLL_PL | DPLL phase lock time with 1-PPS reference | XO = 48 MHz, initial error = ±25 ppb, -180° ≤ Θ ≤ 180°. DPLL LBW = 10 mHz, DPLL LBW = 10 mHz, phase lock ≤ ±100 ns | 34 | 38 | s | |
Hitless Switching Characteristics | ||||||
tHIT | Phase transient during switchover | IN0 = 1 Hz, IN1 = 1 Hz, frequency locked. IN0 and IN1 relative phase offset -180° ≤ Θ ≤ 180°. DPLL LBW = 10 mHz. | 50 | ± ps | ||
IN0 = 1 Hz, IN1 = 1 Hz, frequency locked. IN0 and IN1 relative phase offset -180° ≤ Θ ≤ 180°. DPLL LBW = 100mHz | 25 | ± ps | ||||
IN0 = 8 kHz, IN1 = 8 kHz, frequency locked. IN0 and IN1 relative phase offset -180° ≤ Θ ≤ 180°. DPLL LBW = 1 mHz | 6.5 | ± ps | ||||
IN0 = 8 kHz, IN1 = 8 kHz, frequency locked. IN0 and IN1 relative phase offset -180° ≤ Θ ≤ 180°. DPLL LBW = 100 mHz | 7 | ± ps | ||||
IN0 = 25 MHz, IN1 = 25 MHz, frequency locked. IN0 and IN1 relative phase offset -180° ≤ Θ ≤ 180°. DPLL LBW = 100 mHz | 7 | ± ps | ||||
IN0 = 25 MHz, IN1 = 25 MHz, frequency locked. IN0 and IN1 relative phase offset -180° ≤ Θ ≤ 180°. DPLL LBW = 1 Hz | 9 | ± ps | ||||
IN0 = 25 MHz, IN1 = 25 MHz, frequency locked. IN0 and IN1 relative phase offset -180° ≤ Θ ≤ 180°. DPLL LBW = 100 Hz | 9 | ± ps | ||||
fHIT | Frequency transient during switchover | IN0 = 1 Hz, IN1 = 1 Hz, frequency locked. IN0 and IN1 relative phase offset -180° ≤ Θ ≤ 180°. DPLL LBW = 10 mHz | 0.7 | ± ppb | ||
IN0 = 1 Hz, IN1 = 1 Hz, frequency locked. IN0 and IN1 relative phase offset -180° ≤ Θ ≤ 180°. DPLL LBW = 100 mHz | 0.5 | ± ppb | ||||
IIN0 = 8 kHz, IN1 = 8 kHz, frequency locked. IN0 and IN1 relative phase offset -180° ≤ Θ ≤ 180°. DPLL LBW = 1 mHz | 1.1 | ± ppb | ||||
IIN0 = 8 kHz, IN1 = 8 kHz, frequency locked. IN0 and IN1 relative phase offset -180° ≤ Θ ≤ 180°. DPLL LBW = 100 mHz | 1.1 | ± ppb | ||||
IN0 = 25 MHz, IN1 = 25 MHz, frequency locked. IN0 and IN1 relative phase offset -180° ≤ Θ ≤ 180°. DPLL LBW = 1 mHz | 1.1 | ± ppb | ||||
IN0 = 25 MHz, IN1 = 25 MHz, frequency locked. IN0 and IN1 relative phase offset -180° ≤ Θ ≤ 180°. DPLL LBW = 1 Hz | 1.1 | ± ppb | ||||
IN0 = 25 MHz, IN1 = 25 MHz, frequency locked. IN0 and IN1 relative phase offset -180° ≤ Θ ≤ 180°. DPLL LBW = 100 Hz | 0.9 | ± ppb | ||||
Programmable Output Delay Characteristics | ||||||
tANA-DLY | Analog delay step size (13) | APLL3 = 2500.0 MHz, VCO post-divider = 2, 0.5x range scale, 1 Hz ≤ OUTx ≤ 156.25 MHz, ANA_DELAY_LINEARITY_CODE = 2 | 12.9 | ps | ||
APLL3 = 2500.0 MHz, VCO post divider = 1, 2x range scale, 1 Hz ≤ OUTx ≤ 156.25 MHz, ANA_DELAY_LINEARITY_CODE = 5 | 25.8 | ps | ||||
APLL2 = 5625.0 MHz, VCO post-divider = 3, 1x range scale, 1 Hz ≤ OUTx ≤ 156.25 MHz, ANA_DELAY_LINEARITY_CODE = 3 | 17.2 | ps | ||||
APLL2= 5625.0 MHz, VCO post-divider = 4; 1x range scale, 1 Hz ≤ OUTx ≤ 156.25 MHz, ANA_DELAY_LINEARITY_CODE = 4 | 22.9 | ps | ||||
tANA-DLY-ERR | Analog delay step size error | APLL3 = 2500.0 MHz, VCO post-divider = 2, 0.5x range scale, 1 Hz ≤ OUTx ≤ 156.25 MHz, ANA_DELAY_LINEARITY_CODE = 2 | -6.5 | 6.5 | ps | |
APLL3 = 2500.0 MHz, VCO post divider = 1, 2x range scale, 1 Hz ≤ OUTx ≤ 156.25 MHz, ANA_DELAY_LINEARITY_CODE = 5 | -12.9 | 12.9 | ps | |||
APLL2 = 5625.0 MHz, VCO post-divider = 3, 1x range scale, 1 Hz ≤ OUTx ≤ 156.25 MHz, ANA_DELAY_LINEARITY_CODE = 3 | -8.6 | 8.6 | ps | |||
APLL2 = 5625.0 MHz, VCO post-divider = 4; 1x range scale, 1 Hz ≤ OUTx ≤ 156.25 MHz, ANA_DELAY_LINEARITY_CODE = 4 | -11.45 | 11.45 | ps | |||
tANA-DLY-RANGE | Analog delay range | 31 × tANA-DLY | ps | |||
tANA-DLY-ACC | Analog delay accuracy | Analog delay absolute accuracy for any setting N = 0 to 31 across analog delay range. Worst case error of actual value relative to expected value N × tANA-DLY-STEP for ANA_DELAY_LINEARITY_CODE = 3, 4, 5 | -25 | 25 | ps | |
tANA-DLY-LIN | Analog delay linearity (9) | ANA_DELAY_LINEARITY_CODE = 2 | 333 | 450 | ps | |
ANA_DELAY_LINEARITY_CODE = 3 | 450 | 600 | ps | |||
ANA_DELAY_LINEARITY_CODE = 4 | 600 | 750 | ps | |||
ANA_DELAY_LINEARITY_CODE = 5 | 750 | 1050 | ps | |||
tDIG-DLY | Digital delay step size | VCO post-divider frequency output = 2500 MHz , half step setting | 200 | ps | ||
VCO post-divider frequency output = 1250 MHz, full step setting | 800 | ps | ||||
3-Level Logic Input Characteristics (GPIO0, GPIO1, GPIO2, SCS_ADD) | ||||||
VIH | Input high voltage | 1.4 | V | |||
VIM | Input mid voltage | 0.6 | 0.95 | V | ||
VIM | Input mid voltage self-bias | Input floating with internal bias and PD# pulled low | 0.7 | 0.9 | V | |
RIM-PD | Internal pulldown resistor for mid level self-bias (15) | 145 | 163 | 180 | kΩ | |
RIM-PU | Internal pullup for mid level self-bias (15) | 470 | 526 | 580 | kΩ | |
VIL | Input low voltage | 0.4 | V | |||
IIH | Input high current | VIH = VDD | –40 | 40 | µA | |
IIL | Input low current | VIL = GND | –40 | 40 | µA | |
CIN | Input capacitance | 2 | pF | |||
2-Level Logic Input Characteristics (PD#, SCK, SDIO, SCS_ADD; GPIO0, GPIO1 and GPIO2 after power up) | ||||||
VIH | Input high voltage | 1.2 | V | |||
VIL | Input low voltage | 0.4 | V | |||
IIH | Input high current | VIH = VDD, except PD# | –40 | 40 | µA | |
IIL | Input low current | VIL = GND, except PD# | –40 | 40 | µA | |
IIH | Input high current | VIH = VDD, PD# with internal 200 kΩ pull-up | –57 | 24 | µA | |
IIL | Input low current | VIL = GND, PD# with internal 200 kΩ pull-up | –57 | 24 | µA | |
tWIDTH | Input pulse width for GPIO SYNC, SYSREF request, TEC trigger, DPLL input selection, FDEV trigger and FDEV_dir | Monotonic edges | 200 | ns | ||
CIN | Input capacitance | 2 | pF | |||
Logic Output Characteristics (GPIO0, GPIO1, GPIO2, SDIO) | ||||||
VOH | Output high voltage | IOH = 1 mA | 2.4 | V | ||
VOL | Output low voltage | IOL = 1 mA | 0.4 | V | ||
tR/tF | Output rise/fall time | 20% to 80%, LVCMOS mode, 1 kΩ to GND | 500 | ps | ||
Open Drain Output (GPIO0, GPIO1, GPIO2, SDA) | ||||||
VOL | Output Low Level | IOL = 3 mA | 0.3 | V | ||
IOL = 6 mA | 0.6 | V | ||||
IOH | Output Leakage Current | -15 | 15 | µA | ||
SPI Timing Requirements (SDIO, SCK, SCS_ADD) | ||||||
fSCK | SPI clock rate | 20 | MHz | |||
SPI clock rate; during SRAM read and write operations | 5 | 10 | MHz | |||
t1 | SCS to SCK setup time (start communication cycle) | 10 | ns | |||
t2 | SDI to SCK setup time | 10 | ns | |||
t3 | SDI to SCK hold time | 10 | ns | |||
t4 | SCK high time | 25 | ns | |||
t5 | SCK low time | 25 | ns | |||
t6 | SCK to SDO valid read-back data | 20 | ns | |||
t7 | SCS pulse width | 20 | ns | |||
t8 | SCK to SCS setup time (end communication cylce) | 10 | ns | |||
I2C Timing Requirements (SDA, SCL) | ||||||
VIH | Input high voltage | 1.2 | V | |||
VIL | Input low voltage | 0.5 | V | |||
IIH | Input leakage | –15 | 15 | µA | ||
CIN | Input capacitance | 2 | pF | |||
VOL | Output low voltage | IOL = 3 mA | 0.3 | V | ||
VOL | Output low voltage | IOL = 6 mA | 0.6 | V | ||
fSCL | I2C clock rate | Standard | 100 | kHz | ||
Fast mode | 400 | |||||
tSU(START) | START condition setup time | SCL high before SDA low | 0.6 | µs | ||
tH(START) | START condition hold time | SCL low after SDA low | 0.6 | µs | ||
tW(SCLH) | SCL pulse width high | 0.6 | µs | |||
tW(SCLL) | SCL pulse width low | 1.3 | µs | |||
tSU(SDA) | SDA setup time | 100 | ns | |||
tH(SDA) | SDA hold time | SDA valid after SCL low | 0 | 0.9 | µs | |
tR(IN) | SDA/SCL input rise time | 300 | ns | |||
tF(IN) | SDA/SCL input fall time | 300 | ns | |||
tF(OUT) | SDA output fall time | CBUS ≤ 400 pF | 300 | ns | ||
tSU(STOP) | STOP condition setup time | 0.6 | µs | |||
tBUS | Bus free time between STOP and START | 1.3 | µs | |||
tVD-DAT | Data valid time | 0.9 | µs | |||
tVD-ACK | Data valid achnowledge time | 0.9 | µs | |||
EEPROM Characteristics | ||||||
nEE-CYC | EEPROM programming cycles | 100 | cycle | |||
tSRAM-R/W | EEPROM SRAM read/write time delay between bytes | 0 | ms |