ZHCSGE5A 数据表 | 德州仪器 TI.com.cn

ZHCSGE5A June 2017 – April 2020 ADC12DJ3200

PRODUCTION DATA.

封装选项

机械数据 (封装 | 引脚)

ZEG|144
AAV|144
- MPBGAM2C

散热焊盘机械数据 (封装 | 引脚)

订购信息

6.10 Switching Characteristics

Typical values at T_A = +25°C, VA19 = 1.9V, VA11 = 1.1V, VD11 = 1.1V, default full-scale voltage (FS_RANGE_A = FS_RANGE_B = 0xA000), input signal applied to INA+/– in single channel modes, f_IN = 248 MHz, A_IN = –1 dBFS, f_CLK = maximum rated clock frequency, filtered 1-Vpp sine-wave clock, JMODE = 1, background calibration, unless otherwise noted. Minimum and maximum values are at nominal supply voltages and over operating free-air temperature range provided in Recommended Operating Conditions.

PARAMETER		TEST CONDITIONS	MIN	TYP	MAX	UNIT
DEVICE (SAMPLING) CLOCK (CLK+, CLK–)
t_AD	Sampling (aperture) delay from CLK+/- rising edge (dual channel mode) or rising and falling edge (single channel mode) to sampling instant	TAD_COARSE = 0x00, TAD_FINE = 0x00 and TAD_INV = 0		360		ps
t_TAD(MAX)	Maximum t_AD Adjust programmable delay, not including clock inversion (TAD_INV = 0)	Coarse adjustment (TAD_COARSE = 0xFF)		289		ps
t_TAD(MAX)		Fine adjustment (TAD_FINE = 0xFF)		4.9		ps
t_TAD(STEP)	t_AD Adjust programmable delay step size	Coarse adjustment (TAD_COARSE)		1.13		ps
t_TAD(STEP)	t_AD Adjust programmable delay step size	Fine adjustment (TAD_FINE)		19		fs
t_AJ	Aperture jitter, rms	Minimum t_AD Adjust coarse setting (TAD_COARSE = 0x00, TAD_INV = 0)		50		fs
t_AJ	Aperture jitter, rms	Maximum t_AD Adjust coarse setting (TAD_COARSE = 0xFF) excluding TAD_INV (TAD_INV = 0)		70⁽³⁾		fs
SERIAL DATA OUTPUTS (DA0+...DA7+, DA0–...DA7–, DB0+...DB7+, DB0–...DB7–)
f_SERDES	Serialized output bit rate		1		12.8	Gbps
UI	Serialized output unit interval		78.125		1000	ps
t_TLH	Low-to-high transition time (differential)	20% to 80%, PRBS-7 test pattern, 12.8 Gbps, SER_PE = 0x04		37		ps
t_THL	High-to-low transition time (differential)	20% to 80%, PRBS-7 test pattern, 12.8 Gbps, SER_PE = 0x04		37		ps
DDJ	Data dependent jitter, peak-to-peak	PRBS-7 test pattern, 12.8 Gbps, SER_PE = 0x04, JMODE = 2		7.8		ps
RJ	Random jitter, RMS	PRBS-7 test pattern, 12.8 Gbps, SER_PE = 0x04, JMODE = 2		1.1		ps
TJ	Total jitter, peak-to-peak, with gaussian portion defined with respect to a BER=1e-15 (Q=7.94)	PRBS-7 test pattern, 12.8 Gbps, SER_PE = 0x04, JMODE = 0, 2		25		ps
		PRBS-7 test pattern, 6.4 Gbps, SER_PE = 0x04, JMODE = 1, 3		21		ps
		PRBS-7 test pattern, 8 Gbps, SER_PE = 0x04, JMODE = 4, 5, 6, 7		28		ps
		PRBS-7 test pattern, 8 Gbps, SER_PE = 0x04, JMODE = 9		35		ps
		PRBS-7 test pattern, 8 Gbps, SER_PE = 0x04, JMODE = 10, 11		40		ps
		PRBS-7 test pattern, 3.2 Gbps, SER_PE = 0x04, JMODE = 12		26		ps
		PRBS-7 test pattern, 8 Gbps, SER_PE = 0x04, JMODE = 13, 14		39		ps
		PRBS-7 test pattern, 8 Gbps, SER_PE = 0x04, JMODE = 15, 16		34		ps
ADC CORE LATENCY
t_ADC	Deterministic delay from the CLK+/– edge that samples the reference sample to the CLK+/– edge that samples SYSREF going high⁽¹⁾	JMODE = 0		-8.5		t_CLK cycles
		JMODE = 1		-20.5
		JMODE = 2		-9
		JMODE = 3		-21
		JMODE = 4		-4.5
		JMODE = 5		-24.5
		JMODE = 6		-5
		JMODE = 7		-25
		JMODE = 9		60
		JMODE = 10		140
		JMODE = 11		136
		JMODE = 12		120
		JMODE = 13		232
		JMODE = 14		232
		JMODE = 15		446
		JMODE = 16		430
		JMODE = 17		-48.5
		JMODE = 18		-49
JESD204B AND SERIALIZER LATENCY
t_TX	Delay from the CLK+/– rising edge that samples SYSREF high to the first bit of the multi-frame on the JESD204B serial output lane corresponding to the reference sample of t_ADC⁽²⁾	JMODE = 0	72		84	t_CLK cycles
		JMODE = 1	119		132
		JMODE = 2	72		84
		JMODE = 3	119		132
		JMODE = 4	67		80
		JMODE = 5	106		119
		JMODE = 6	67		80
		JMODE = 7	106		119
		JMODE = 9	106		119
		JMODE = 10	67		80
		JMODE = 11	106		119
		JMODE = 12	213		225
		JMODE = 13	67		80
		JMODE = 14	106		119
		JMODE = 15	67		80
		JMODE = 16	106		119
		JMODE = 17	195		208
		JMODE = 18	195		208
SERIAL PROGRAMMING INTERFACE (SDO)
t_(OZD)	Maximum delay from falling edge of 16th SCLK cycle during read operation for SDO transition from tri-state to valid data			7		ns
t_(ODZ)	Maximum delay from SCS rising edge for SDO transition from valid data to tri-state			7		ns
t_(OD)	Maximum delay from falling edge of 16th SCLK cycle during read operation to SDO valid			12		ns

(1) t_ADC is an exact, unrounded, deterministic delay. The delay can be negative if the reference sample is sampled after the SYSREF high capture point, in which case the total latency is smaller than the delay given by t_TX.

(2) The values given for t_TX include deterministic and non-deterministic delays. Over process, temperature, and voltage, the delay will vary. JESD204B accounts for these variations when operating in subclass-1 mode in order to achieve deterministic latency. Proper receiver RBD value must be chosen such that the elastic buffer release point does not occur within the invalid region of the local multi-frame clock (LMFC) cycle.

(3) t_AJ increases due to additional attenuation on internal clock path.

1. Only the SerDes lane DA0± is shown, but DA0± is representative of all lanes. The number of output lanes used and bit-packing format is dependent on the programmed JMODE value.

Figure 1. ADC Timing Diagram

1. The internal LMFC is assumed to be aligned with the CLK± rising edge that captures the SYSREF± high value.

2. Only SerDes lane DA0± is shown, but DA0± is representative of all lanes. All lanes output /R at approximately the same point in time. The number of lanes is dependent on the programmed JMODE value.

Figure 2. SYNCSE and TMSTP± Timing Diagram for NCO Synchronization

Figure 3. Serial Interface Timing