SBASAO7 Data sheet

SBASAO7 july 2023 AFE7954

PRODUCTION DATA

Package Options

Mechanical Data (Package|Pins)

ABJ|400
- MCBG079C
ALK|400
- MPBGAU3B

Thermal pad, mechanical data (Package|Pins)

Orderable Information

6.5 Transmitter Electrical Characteristics

Typical values at T_A = +25°C, full temperature range is T_A,MIN = -40°C to T_J,MAX = +110°C; TX Input Rate = 491.52MSPS below 6GHz and 1474.56MSPS above 6GHz, f_DAC = 11796.48MSPS; PLL clock mode below 6GHz output frequency and External clock mode above 6GHz output frequency; interleave mode for 1^st Nyquist, non-interleave mix mode for 2^nd Nyquist, nominal power supplies; 1 tone at -1 dBFS; DSA Attenuation =0dB; SerDes rate = 16.22Gbps, unless otherwise noted.

PARAMETER		TEST CONDITIONS	MIN	TYP	MAX	UNIT
DAC_RES	DAC resolution			14		bits
f_RFout	RF output frequency range	f_DAC = 12 GSPS, 1^st Nyquist	600		6000	MHz
		f_DAC = 12 GSPS, 2^nd Nyquist	6000		12000
		f_DAC = 9 GSPS, 1^st Nyquist	600		4500
		f_DAC = 9 GSPS, 2^nd Nyquist	4500		9000
		f_DAC = 6 GSPS, 1^st Nyquist	600		3000
		f_DAC =6 GSPS, 2^nd Nyquist	3000		6000
P_{max_FS}	Max Full Scale Output Power, max gain 1 tone, at device pins	f_out= 850 MHz, f_DAC = 5898.24 MSPS, -0.5dBFS		4.2		dBm
		f_out= 1800 MHz, f_DAC = 5898.24 MSPS, -0.5dBFS		4.6		dBm
		f_out= 2600 MHz, f_DAC = 8847.36 MSPS, -0.5dBFS		4.0		dBm
		f_out= 3500 MHz, -0.5dBFS		3.9		dBm
		_fout= 4900 MHz, -0.5dBFS		3.1		dBm
		f_out= 3500 MHz, f_DAC = 5898.24 MSPS, -0.5dBFS, straight mode		1.0		dBm
		f_out= 4900 MHz, f_DAC = 5898.24 MSPS, -0.5dBFS, straight mode		0.1		dBm
		f_out= 4900 MHz, f_DAC = 8847.36 MSPS, -0.5dBFS, straight mode		-0.7		dBm
		f_out= 8100 MHz, -0.1dBFS, mixed mode		-2.8		dBm
		f_out= 9600 MHz, -0.1dBFS, mixed mode		-4.3		dBm
R_TERM	Output termination resistor	Default setting		50		Ω
ATT_range	DSA Attenuation range			40		dB
ATT_step	DSA Analog Attenuation step			1.0		dB
	DSA Attenuation step accuracy (DNL)	0 < Atten < 40dB, before calibration		±0.2		dB
	DSA Attenuation step accuracy (DNL)	0 < Atten < 40dB, after calibration		±0.1		dB
ATT_phase-err	DSA Gain Steps Phase accuracy, any 8dB range	f_out= 850MHz⁽²⁾		±1		deg
		f_out= 1800MHz⁽²⁾		±1		deg
		f_out=2600MHz⁽²⁾		±1		deg
		f_out= 3500MHz⁽²⁾		±1		deg
		f_out= 4900MHz⁽²⁾		±1		deg
		f_out= 8100MHz⁽²⁾		±2		deg
		f_out= 9600MHz⁽²⁾		±2		deg
G_flat	Gain flatness	any 20MHz		0.1		dB
G_flat	Gain flatness	600MHz BW, F_out< 4.9G		1.2		dB
IMD3	3rd Order Intermodulation distortion, 2 tones at f_IF±10 MHz	f_out= 850MHz, -7dBFS each tone		-66		dBc
		f_out= 1800MHz, -7dBFS each tone		-63		dBc
		f_out= 2600MHz, -7dBFS each tone		-62		dBc
		f_out= 3500MHz, -7dBFS each tone		-61		dBc
		f_out= 4900MHz, -7dBFS each tone		-57		dBc
		f_out= 8100MHz, -7dBFS each tone		-55		dBc
		f_out= 9600MHz, -7dBFS each tone		-52		dBc
		f_out= 850MHz, -13dBFS each tone		-74.4		dBc
		f_out= 1800MHz, -13dBFS each tone		-71.1		dBc
		f_out= 2600MHz, -13dBFS each tone		-73		dBc
		f_out= 3500MHz, -13dBFS each tone		-72		dBc
		f_out= 4900MHz, -13dBFS each tone		-67.8		dBc
		f_out= 8100MHz, -13dBFS each tone		-64		dBc
		f_out= 9600MHz, -13dBFS each tone		-68		dBc
SFDR	Spurious Free Dynamic Range (within Nyquist zone)	f_out = 850 MHz		50.8		dBc
		f_out = 1800 MHz		51.9		dBc
		f_out = 2600 MHz		42		dBc
		f_out = 3500 MHz		44		dBc
		f_out= 4900 MHz		46.1		dBc
f_S/2 - f_OUT	Interleaving Image	f_DAC = 5898.24MSPS, interleave mode		-51.9		dBc
		f_DAC = 8847.36 MSPS, interleave mode		-46.0		dBc
		f_DAC = 11796.48MSPS, interleave mode		-41		dBc
HD2	2nd Harmonic Distortion (within Nyquist zone)	f_out = 850 MHz		-49		dBc
		f_out = 1800 MHz		-53		dBc
		f_out = 2600 MHz		-50		dBc
		f_out = 3500 MHz		-48		dBc
		f_out= 4900 MHz		-47		dBc
		f_out= 8100 MHz		-50		dBc
		f_out= 9600 MHz		-53		dBc
		f_out = 850 MHz, A_OUT=-12dBFS		-60		dBc
		f_out = 1800 MHz, A_OUT=-12dBFS		-64		dBc
		f_out = 2600 MHz, A_OUT=-12dBFS		-45		dBc
		f_out = 3500 MHz, A_OUT=-12dBFS		-57		dBc
		f_out= 4900 MHz, A_OUT=-12dBFS		-58		dBc
		f_out= 8100 MHz, A_OUT=-12dBFS		-60		dBc
		f_out= 9600 MHz, A_OUT=-12dBFS		-62		dBc
HD3	3rd Harmonic Distortion (within Nyquist zone)	f_out = 850 MHz		-62		dBc
		f_out = 1800 MHz		-55		dBc
		f_out = 2600 MHz		-57		dBc
		f_out = 3500 MHz		-60		dBc
		f_out= 4900 MHz		-54		dBc
		f_out= 8100 MHz		-54		dBc
		f_out= 9600 MHz		-56		dBc
		f_out = 850 MHz, A_OUT=-12dBFS		-80		dBc
		f_out = 1800 MHz, A_OUT=-12dBFS		-79		dBc
		f_out = 2600 MHz, A_OUT=-12dBFS		-77		dBc
		f_out = 3500 MHz, A_OUT=-12dBFS		-77		dBc
		f_out= 4900 MHz, A_OUT=-12dBFS		-78		dBc
		f_out= 8100 MHz, A_OUT=-12dBFS		-82		dBc
		f_out= 9600 MHz, A_OUT=-12dBFS		-80		dBc
HDn, n >= 4	Harmonic Distortion n >= 4 (within Nyquist zone)	f_out = 850 MHz		-81		dBc
		f_out = 1800 MHz		-88		dBc
		f_out = 2600 MHz		-86		dBc
		f_out = 3500 MHz		-79		dBc
		f_out= 4900 MHz		-86		dBc
		f_out= 8100 MHz		-87		dBc
		f_out= 9600 MHz		-85		dBc
		f_out = 850 MHz, A_OUT=-12dBFS		-93		dBc
		f_out = 1800 MHz, A_OUT=-12dBFS		-98		dBc
		f_out = 2600 MHz, A_OUT=-12dBFS		-84		dBc
		f_out = 3500 MHz, A_OUT=-12dBFS		-87		dBc
		f_out= 4900 MHz, A_OUT=-12dBFS		-87		dBc
		f_out= 8100 MHz, A_OUT=-12dBFS		-87		dBc
		f_out= 9600 MHz, A_OUT=-12dBFS		-87		dBc
SFDR +/- 250 MHz	Spurious Free Dynamic Range within +/- 250 MHz	f_out = 850 MHz		68.5		dBc
		f_out = 1800 MHz		79.4		dBc
		f_out = 2600 MHz		77		dBc
		f_out = 3500 MHz		75		dBc
		f_out= 4900 MHz		76		dBc
		f_out= 8100 MHz		61		dBc
		f_out= 9600 MHz		64		dBc
f_S/4	Fixed Spur	f_DAC = 5898.24MSPS		-64		dBFS
		f_DAC = 8847.36MSPS		-75		dBFS
		f_DAC = 11796.48MSPS		-67		dBFS
f_S/2	Fixed Spur	f_DAC = 5898.24MSPS		-49		dBFS
		f_DAC = 8847.36MSPS		-48		dBFS
		f_DAC = 11796.48 MSPS		-48		dBFS
3*f_S/4	Fixed Spur	2nd Nyquist, f_DAC = 5898.24MSPS		-76		dBFS
		2nd Nyquist, f_DAC = 8847.36MSPS		-89		dBFS
		2nd Nyquist, f_DAC = 11796.48MSPS		-63		dBFS
ACPR_1xcarr	ACPR - 1 carrier, LTE 20MHz E-TM1.1 carrier f_out = 0.85 GHz	Atten=0dB, Pout=-13dBFs		-68.5		dBc
		Atten=20dB,Pout=-13dBFs		-67.2		dBc
		Atten=28dB,Pout=-13dBFs		-64.5		dBc
		Atten=39dB, Pout=-13dBFs		-53.9		dBc
ACPR_1xcarr	ACPR - 1 carrier, LTE 20MHz E-TM1.1 carrier f_out = 1.8425 GHz	Atten=0dB,Pout=-13dBFs		-70.7		dBc
		Atten=20dB, Pout=-13dBFs		-68.3		dBc
		Atten=28dB, Pout=-13dBFs		-62.9		dBc
		Atten=39dB, Pout=-13dBFs		-52.0		dBc
ACPR_1xcarr	ACPR - 1 carrier, LTE 20MHz E-TM1.1 carrier f_out = 2.6 GHz	Atten=0dB, Pout=-13dBFs		-71		dBc
		Atten=20dB, Pout=-13dBFs		-68		dBc
		Atten=28dB, Pout=-13dBFs		-62		dBc
		Atten=39dB, Pout=-13dBFs		-51.3		dBc
ACPR_1xcarr	ACPR - 1 carrier, LTE 20MHz E-TM1.1 carrier f_out = 3.5 GHz	Atten=0dB, Pout=-13dBFs		-70		dBc
		Atten=20dB, Pout=-13dBFs		-67		dBc
		Atten=28dB, Pout=-13dBFs		-60		dBc
		Atten=39dB, Pout=-13dBFs		-49.8		dBc
ACPR_1xcarr	ACPR - 1 carrier, LTE 20MHz E-TM1.1 carrier f_out = 4.9 GHz	Atten=0dB, Pout=-13dBFs		-68.8		dBc
		Atten=20dB, Pout=-13dBFs		-65.9		dBc
		Atten=28dB, Pout=-13dBFs		-60.6		dBc
		Atten=39dB, Pout=-13dBFs		-49.5		dBc
ACPR_1xcarr	ACPR - 1 carrier, NR 100MHz E-TM1.1 carrier f_out = 2.6 GHz	Atten=0dB, Pout=-13dBFs		-65		dBc
		Atten=20dB, Pout=-13dBFs		-62		dBc
		Atten=20dB, Pout=-13dBFs		-55		dBc
		Atten=39dB,Pout=-13dBFs		-44.3		dBc
ACPR_1xcarr	ACPR - 1 carrier, NR 100MHz E-TM1.1 carrier f_out = 3.5 GHz	Atten=0dB, Pout=-13dBFs		-64		dBc
		Atten=20dB, Pout=-13dBFs		-59		dBc
		Atten=28dB, Pout=-13dBFs		-52		dBc
		Atten=39dB, Pout=-13dBFs		-41.1		dBc
ACPR_1xcarr	ACPR - 1 carrier, NR 100MHz E-TM1.1 carrier f_out = 4.9 GHz	Atten=0dB, Pout=-13dBFs		-64.1		dBc
		Atten=20dB, Pout=-13dBFs		-60.4		dBc
		Atten=28dB, Pout=-13dBFs		-53.5		dBc
		Atten=39dB, Pout=-13dBFs		-42.5		dBc
ACPR_1xcarr	ACPR - 1 carrier, NR 100MHz E-TM1.1 carrier f_out = 8.1 GHz	Atten=0dB, Pout=-13dBFs		-58		dBc
		Atten=20dB, Pout=-13dBFs		-53		dBc
		Atten=28dB, Pout=-13dBFs		-46		dBc
		Atten=39dB, Pout=-13dBFs		-36		dBc
ACPR_1xcarr	ACPR - 1 carrier, NR 100MHz E-TM1.1 carrier f_out = 9.6 GHz	Atten=0dB, Pout=-13dBFs		-57		dBc
		Atten=20dB, Pout=-13dBFs		-50		dBc
		Atten=28dB, Pout=-13dBFs		-42		dBc
		Atten=39dB, Pout=-13dBFs		-31		dBc
EVM	Error Vector Magnitude, 1x 20MHz E-TM3.1/3.1a, no ref. clock noise	F_out =0.85 GHz, P_OUT=-13dBFs		0.2		%
		F_out =1.8425 GHz, P_OUT=-13dBFs		0.3		%
		F_out =2.6 GHz, P_OUT=-13dBFs		0.28		%
		F_out =3.5 GHz, P_OUT=-13dBFs		0.38		%
		F_out =4.9 GHz, P_OUT=-13dBFs		0.4		%
NSD_dBFS	Noise Spectral Density 20MHz offset f_OUT = 0.85 GHz	Atten=0dB, f_DAC = 5898.24MSPS, Pout=-13dBFs		-157.6		dBFS/ Hz
		Atten=20dB, f_DAC = 5898.24MSPS, Pout=-13dBFs		-153.3		dBFS/ Hz
		Atten=28dB, f_DAC = 5898.24MSPS, Pout=-13dBFs		-147.9		dBFS/ Hz
		Atten=39dB, f_DAC = 5898.24MSPS, Pout=-13dBFs		-136.9		dBFS/ Hz
NSD_dBFS	Noise Spectral Density 20MHz offset f_OUT = 1.8 GHz	Atten=0dB, f_DAC = 5898.24MSPS, Pout=-13dBFs		-158.4		dBFS/ Hz
		Atten=20dB, f_DAC = 5898.24MSPS, Pout=-13dBFs		-152.2		dBFS/ Hz
		Atten=28dB, f_DAC = 5898.24MSPS, Pout=-13dBFs		-145.6		dBFS/ Hz
		Atten=39dB, f_DAC = 5898.24MSPS, Pout=-13dBFs		-134.6		dBFS/ Hz
NSD_dBFS	Noise Spectral Density 20MHz offset f_OUT = 2.6 GHz	Atten=0dB, f_DAC = 8847.36MSPS, Pout=-13dBFs		-157		dBFS/ Hz
		Atten=20dB, f_DAC = 8847.36MSPS, Pout=-13dBFs		-151		dBFS/ Hz
		Atten=28dB, f_DAC = 8847.36MSPS, Pout=-13dBFs		-144		dBFS/ Hz
		Atten=39dB, f_DAC = 8847.36MSPS, Pout=-13dBFs		-133.0		dBFS/ Hz
NSD_dBFS	Noise Spectral Density 20MHz offset F_out =3.5 GHz	Atten=0dB, Pout=-13dBFs		-158		dBFS/ Hz
		Atten=20dB, Pout=-13dBFs		-150		dBFS/ Hz
		Atten=28dB, Pout=-13dBFs		-143		dBFS/ Hz
		Atten=39dB, Pout=-13dBFs		-131.8		dBFS/ Hz
NSD_dBFS	Noise Spectral Density 20MHz offset F_out =4.9 GHz	Atten=0dB, Pout=-13dBFs		-155.5		dBFS/ Hz
		Atten=20dB, Pout=-13dBFs		-147.8		dBFS/ Hz
		Atten=28dB, Pout=-13dBFs		-140.8		dBFS/ Hz
		Atten=39dB, Pout=-13dBFs		-129.6		dBFS/ Hz
NSD_dBFS	Noise Spectral Density 50MHz offset F_out =8.1 GHz	Atten=0dB, Pout=-13dBFs		-153		dBFS/ Hz
		Atten=20dB, Pout=-13dBFs		-147		dBFS/ Hz
		Atten=28dB, Pout=-13dBFs		-140		dBFS/ Hz
		Atten=39dB, Pout=-13dBFs		-129		dBFS/ Hz
NSD_dBFS	Noise Spectral Density 50MHz offset F_out =9.6 GHz	Atten=0dB, Pout=-13dBFs		-152		dBFS/ Hz
		Atten=20dB, Pout=-13dBFs		-147		dBFS/ Hz
		Atten=28dB, Pout=-13dBFs		-140		dBFS/ Hz
		Atten=39dB, Pout=-13dBFs		-129		dBFS/ Hz
S22	Output Return Loss, <6GHz, +/- fc * 10%	with matching		-17		dB
S22	Output Return Loss, >8GHz, +/- fc * 10%	with matching		-10		dB
Isolation	Near Channel: 1TXOUT to 2TXOUT or 3TXOUT to 4TXOUT⁽¹⁾	f_out = 900 MHz, f_DAC = 8847.36MSPS, straight mode		-49		dB
		f_out = 1850 MHz, f_DAC = 8847.36MSPS, straight mode		-59		dB
		f_out = 2600 MHz, f_DAC = 8847.36MSPS, straight mode		-65		dB
		f_out = 3500 MHz, f_DAC = 8847.36MSPS, straight mode		-66		dB
		f_out= 4900 MHz, f_DAC = 8847.36MSPS, straight mode		-60		dB
		f_out = 900 MHz, f_DAC = 8847.36MSPS, straight mode		-90		dB
		f_out = 1850 MHz, f_DAC = 8847.36MSPS, straight mode		-91		dB
		f_out = 2600 MHz, f_DAC = 8847.36MSPS, straight mode		-93		dB
		f_out = 3500 MHz, f_DAC = 8847.36MSPS, straight mode		-94		dB
		f_out= 4900 MHz, f_DAC = 8847.36MSPS, straight mode		-83		dB
PN_TXADD	Additive Phase Noise External Clock Mode⁽³⁾	f_out = 9.6GHz, f_OFFSET = 100Hz		-88		dBc/Hz
		f_out = 9.6GHz, f_OFFSET = 1kHz		-102		dBc/Hz
		f_out = 9.6GHz, f_OFFSET = 10kHz		-110		dBc/Hz
		f_out = 9.6GHz, f_OFFSET = 100kHz		-123		dBc/Hz
		f_out = 9.6GHz, f_OFFSET = 1MHz		-136		dBc/Hz
		f_out = 9.6GHz, f_OFFSET = 10MHz		-143		dBc/Hz
		f_out = 9.6GHz, f_OFFSET = 100MHz		-146		dBc/Hz

(1) Measured with differential 50 ohm across TxP/M. The DC bias to 1.8V to each TxP/M at each pin remains and is not removed. Other external components on the TX paths are disconnected.

(2) After DSA calibration procedure

(3) Single side band, input clock phase noise subtracted.