米6体育平台手机版

ZHCSO34F April 2011 – August 2021 DS80PCI402

PRODUCTION DATA

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机械数据 (封装 | 引脚)

NJY|54
- MPQS027A

散热焊盘机械数据 (封装 | 引脚)

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6.5 Electrical Characteristics

PARAMETER		TEST CONDITIONS	MIN	TYP	MAX	UNIT
POWER
PD	Power Dissipation	VDD = 2.5 V supply, EQ Enabled, VOD = 1.0 Vp-p, RXDET = 1, PRSNT = 0		500	700	mW
PD	Power Dissipation	VIN = 3.3 V supply, EQ Enabled, VOD = 1.0 Vp-p, RXDET = 1, PRSNT = 0		660	900	mW
LVCMOS / LVTTL DC SPECIFICATIONS
V_IH25	High-level input voltage ( PRSNT, READ_EN pins)	2.5 V mode	2.0		VDD	V
V_IH33	High-level input voltage ( PRSNT, READ_EN pins)	3.3 V mode	2.0		VIN	V
V_IL	Low-Level Input Voltage ( PRSNT, READ_EN pins)		0		0.8	V
V_OH	High-level output voltage ( ALL_DONE pin)	I_OH = −4 mA	2.0			V
V_OL	Low-level output voltage ( ALL_DONE pin)	I_OL = 4 mA			0.4	V
I_IH	Input high current ( PRSNT pin)	VIN = 3.6 V, LVCMOS = 3.6 V	–15		15	μA
I_IH	Input high current with internal resistors (4–level input pin)	VIN = 3.6 V, LVCMOS = 3.6 V	20		150	μA
I_IL	Input low current ( PRSNT pin)	VIN = 3.6 V, LVCMOS = 0 V	–15		15	μA
I_IL	Input low current with internal resistors (4-level input pin)	VIN = 3.6 V, LVCMOS = 0 V	–160		–40	μA
CML RECEIVER INPUTS (IN_n+, IN_n-)
RL_RX-DIFF	RX differential return loss	0.05 to 1.25 GHz		–16		dB
		1.25 to 2.5 GHz		–16		dB
		2.5 to 4.0 GHz		–14		dB
RL_RX-CM	RX common mode return loss	0.05 to 2.5 GHz		–12		dB
RL_RX-CM	RX common mode return loss	2.5 to 4.0 GHz		–8		dB
Z_RX-DC	RX DC single-ended impedance	Tested at VDD = 2.5 V	40	50	60	Ω
Z_RX-DIFF-DC	RX DC differential mode impedance	Tested at VDD = 2.5 V	80	100	120	Ω
Z_{RX-HIGH-IMP-DC-POS}	DC input common mode impedance for V > 0	VID = 0 to 200 mV, ENSMB = 0, RXDET = 0, VDD = 2.5 V		50		kΩ
V_RX-DIFF-DC	Differential RX peak-to-peak voltage (VID)	Tested at pins			1.2	V
V_{RX-SIGNAL-DET-DIFF-PP}	Signal detect assert level for active data signal	SD_TH = float, 0101 pattern at 8 Gbps Measured at pins		180		mVp-p
V_{RX-IDLE-DET-DIFF-PP}	Signal detect deassert level for electrical idle	SD_TH = float, 0101 pattern at 8 Gbps Measured at pins		110		mVp-p
HIGH-SPEED OUTPUTS
V_TX-DIFF-PP	Output voltage differential swing	Differential measurement with OUT_n+ and OUT_n-, terminated by 50Ω to GND, AC-Coupled, VID = 1.0 Vp-p, DEM0 = 1, DEM1 = 0⁽¹⁾	0.8	1.0	1.2	Vp-p
V_{TX-DE-RATIO_3.5}	TX de-emphasis ratio	VOD = 1.0 Vp-p, DEM0 = 0, DEM1 = R Gen 1 & 2 modes only		–3.5		dB
V_{TX-DE-RATIO_6}	TX de-emphasis ratio	VOD = 1.0 Vp-p, DEM0 = R, DEM1 = R Gen 1 & 2 modes only		–6		dB
T_TX-DJ	Deterministic Jitter	VID = 800 mV, PRBS15 pattern, 8.0 Gbps, VOD = 1.0 V, EQ = 00, DE = 0 dB (no input or output trace loss)		0.05		UIpp
T_TX-RJ	Random Jitter	VID = 800 mV, 0101 pattern, 8.0 Gbps, VOD = 1.0 V, EQ = 00, DE = 0 dB, (no input or output trace loss)		0.3		ps RMS
T_TX-RISE-FALL	TX rise/fall time	20% to 80% of differential output voltage⁽³⁾	35	45		ps
T_RF-MISMATCH	TX rise/fall mismatch	20% to 80% of differential output voltage⁽³⁾		0.01	0.1	UI
RL_TX-DIFF	TX differential return loss	0.05 to 1.25 GHz		–16		dB
		1.25 to 2.5 GHz		–12		dB
		2.5 to 4 GHz		–11		dB
RL_TX-CM	TX common mode return loss	0.05 to 2.5 GHz		–12		dB
RL_TX-CM	TX common mode return loss	2.5 to 4 GHz		–8		dB
Z_TX-DIFF-DC	DC differential TX impedance			100		Ω
V_TX-CM-AC-PP	TX AC peak-peak common mode voltage	VOD = 1.0 Vp-p, DEM0 = 1, DEM1 = 0⁽³⁾			100	mVp-p
I_TX-SHORT	TX short circuit current limit	Total current the transmitter can supply when shorted to VDD or GND		20		mA
V_{TX-CM-DC-ACTIVE-IDLE-DELTA}	Absolute delta of DC common mode voltage during L0 and electrical idle	⁽³⁾			100	mV
V_{TX-CM-DC-LINE-DELTA}	Absolute delta of DC common mode voltgae between TX+ and TX-	⁽³⁾			25	mV
T_TX-IDLE-DATA	Max time to transition to differential DATA signal after IDLE	VID = 1.0 Vp-p, 8 Gbps		3.5		ns
T_TX-DATA-IDLE	Max time to transition to IDLE after differential DATA signal	VID = 1.0 Vp-p, 8 Gbps		6.2		ns
T_PLHD/PHLD	High-to-low and low-to-high differential propagation delay	EQ = 00⁽²⁾		200		ps
T_LSK	Lane-to-lane skew	T = 25° C, VDD = 2.5 V		25		ps
T_PPSK	Part-to-part propagation delay skew	T = 25° C, VDD = 2.5 V		40		ps
EQUALIZATION
DJE1	Residual deterministic jitter at 8 Gbps	35” 4mils FR4, VID = 0.8 Vp-p, PRBS15, EQ = 0x1F, DEM = 0 dB		0.14		UIpp
DJE2	Residual deterministic jitter at 5 Gbps	35” 4mils FR4, VID = 0.8 Vp-p, PRBS15, EQ = 0x1F, DEM = 0 dB		0.1		UIpp
DJE3	Residual deterministic jitter at 2.5 Gbps	35” 4mils FR4, VID = 0.8 Vp-p, PRBS15, EQ = 0x1F, DEM = 0 dB		0.05		UIpp
DJE4	Residual deterministic jitter at 8 Gbps	10 meters 30-awg cable, VID = 0.8 Vp-p, PRBS15, EQ = 0x2F, DEM = 0 dB		0.16		UIpp
DJE5	Residual deterministic jitter at 5 Gbps	10 meters 30-awg cable, VID = 0.8 Vp-p, PRBS15, EQ = 0x2F, DEM = 0 dB		0.1		UIpp
DJE6	Residual deterministic jitter at 2.5 Gbps	10 meters 30-awg cable, VID = 0.8 Vp-p, PRBS15, EQ = 0x2F, DEM = 0 dB		0.05		UIpp
DE-EMPHASIS (GEN 1,2 MODE ONLY)
DJD1	Residual deterministic jitter at 2.5 Gbps and 5.0 Gbps	10” 4mils FR4, VID = 0.8 Vp-p, PRBS15, EQ = 00, VOD = 1.0 Vp-p, DEM = −3.5 dB		0.1		UIpp
DJD2	Residual deterministic jitter at 2.5 Gbps and 5.0 Gbps	20” 4mils FR4, VID = 0.8 Vp-p, PRBS15, EQ = 00, VOD = 1.0 Vp-p, DEM = –9 dB		0.1		UIpp

(1) In GEN3 mode, the output VOD level is not fixed. It will be adjusted automatically based on the VID input amplitude level. The output VOD level set by DEMA/B[1:0] in GEN3 mode is dependent on the VID level and the frequency content. The DS80PCI402 repeater in GEN3 mode is designed to be transparent, so the TX-FIR (de-emphasis) is passed to the RX to support the PCIe GEN3 handshake negotiation link training.

(2) Propagation delay measurements will change slightly based on the level of EQ selected. EQ = 00 will result in the largest propagation delays.

(3) Parameter is characterized but not tested in production.