ZHCSDZ6D 数据表 | 德州仪器 TI.com.cn

ZHCSDZ6D July 2012 – July 2015 DS90UB913Q-Q1 , DS90UB914Q-Q1

PRODUCTION DATA.

封装选项

机械数据 (封装 | 引脚)

RTV|32
- MPQF166B

散热焊盘机械数据 (封装 | 引脚)

RTV|32
- QFND448B

订购信息

8 Specifications

8.1 Absolute Maximum Ratings

over operating free-air temperature range (unless otherwise noted) ⁽¹⁾⁽³⁾⁽²⁾

	MIN	MAX	UNIT
Supply voltage – V_DDn (1.8 V)	−0.3	2.5	V
Supply voltage – V_DDIO	−0.3	4.0	V
LVCMOS input voltage	−0.3	VDDIO + 0.3	V
CML driver I/O voltage (V_DD)	−0.3	V_DD + 0.3	V
CML receiver I/O voltage (V_DD)	−0.3	V_DD + 0.3	V
Junction temperature		150	°C
Maximum package power dissipation capacity package		1/θ_JA above +25°	°C/W
Air discharge (DOUT+, DOUT–, RIN+, RIN–)	−25	25	kV
Contact discharge (DOUT+, DOUT–, RIN+, RIN–)	−7	7	kV
Storage temperature T_stg	−65	150	°C

(1) Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. These are stress ratings only, which do not imply functional operation of the device at these or any other conditions beyond those indicated under Recommended Operating Conditions. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.

(2) For soldering specifications: see product folder at www.ti.com and SNOA549.

(3) If Military/Aerospace specified devices are required, contact the Texas Instruments Sales Office/ Distributors for availability and specifications.

8.2 ESD Ratings

				VALUE	UNIT
V_(ESD)	Electrostatic discharge	Human body model (HBM), per AEC Q100-002⁽¹⁾		±8000	V
		Charged-device model (CDM), per AEC Q100-011		±1000
		Machine model (MM)		±250
		IEC 61000-4-2⁽²⁾	Air Discharge (DOUT+, DOUT-, RIN+, RIN-)	≥±25 000
		IEC 61000-4-2⁽²⁾	Contact Discharge (DOUT+, DOUT-, RIN+, RIN-)	≥±7000
		ISO10605⁽³⁾⁽⁴⁾	Air Discharge	≥±15 000
		ISO10605⁽³⁾⁽⁴⁾	Contact Discharge	≥±8000

(1) AEC Q100-002 indicates HBM stressing is done in accordance with the ANSI/ESDA/JEDEC JS-001 specification.

(2) R_D = 330 Ω, C_S = 150 pF

(3) R_D = 330 Ω, C_S = 150 / 330 pF

(4) R_D = 2 KΩ, C_S = 150 / 330 pF

8.3 Recommended Operating Conditions

over operating free-air temperature range (unless otherwise noted)

		MIN	NOM	MAX	UNIT
Supply voltage (V_DDn)		1.71	1.8	1.89	V
LVCMOS supply voltage (V_DDIO) OR		1.71	1.8	1.89	V
LVCMOS supply voltage (V_DDIO) OR		3.0	3.3	3.6
LVCMOS supply voltage (V_DDIO) only serializer		2.52	2.8	3.08
Supply noise⁽¹⁾	V_DDn (1.8 V)			25	mVp-p
	V_DDIO (1.8 V)			25
	V_DDIO (3.3 V)			50
Operating free-air temperature (T_A)		–40	25	105	°C
PCLK clock frequency		10		100	MHz

(1) Supply noise testing was done with minimum capacitors (as shown on Figure 49 and Figure 48) on the PCB. A sinusoidal signal is AC coupled to the VDDn (1.8-V) supply with amplitude = 25 mVp-p measured at the device VDDn pins. Bit error rate testing of input to the serializer and output of the deserializer with 10 meter cable shows no error when the noise frequency on the serializer is less than
1 MHz. The deserializer on the other hand shows no error when the noise frequency is less than 750 kHz.

8.4 Thermal Information

THERMAL METRIC⁽¹⁾		DS90UB913Q-Q1	DS90UB914Q-Q1	UNIT
		RTV (WQFN)	RHS (WQFN)
		32 PINS	48 PINS
R_θJA	Junction-to-ambient thermal resistance	38.4	26.9	°C/W
R_θJC(top)	Junction-to-case (top) thermal resistance	6.9	4.4	°C/W

(1) For more information about traditional and new thermal metrics, see the Semiconductor and IC Package Thermal Metrics application report, SPRA953.

8.5 Electrical Characteristics

over recommended operating supply and temperature ranges unless otherwise specified.⁽¹⁾⁽²⁾⁽³⁾

PARAMETER		TEST CONDITIONS		MIN	TYP	MAX	UNIT
LVCMOS DC SPECIFICATIONS 3.3V I/O (SERIALIZER INPUTS, DESERIALIZER OUTPUTS, GPI, GPO, CONTROL INPUTS AND OUTPUTS)
V_IH	High level input voltage	V_IN = 3 V to 3.6 V		2		V_IN	V
V_IL	Low level input voltage	V_IN = 3 V to 3.6 V		GND		0.8	V
I_IN	Input current	V_IN = 0 V or 3.6 V, V_IN = 3 V to 3.6 V		−20	±1	20	µA
V_OH	High level output voltage	V_DDIO = 3 V to 3.6 V, I_OH = −4 mA		2.4		V_DDIO	V
V_OL	Low level output voltage	V_DDIO = 3 V to 3.6 V, I_OL = +4 mA		GND		0.4	V
I_OS	Output short circuit current	V_OUT = 0 V	Serializer GPO outputs		–15		mA
I_OS	Output short circuit current	V_OUT = 0 V	Deserializer LVCMOS outputs		–35		mA
I_OZ	TRI-STATE output current	PDB = 0 V, V_OUT = 0 V or V_DD	LVCMOS outputs	–20		20	µA
LVCMOS DC SPECIFICATIONS 1.8V I/O (SERIALIZER INPUTS, DESERIALIZER OUTPUTS, GPI, GPO, CONTROL INPUTS AND OUTPUTS)
V_IH	High level input voltage	V_IN = 1.71 V to 1.89 V		0.65 V_IN		V_IN	V
V_IL	Low level input voltage	V_IN = 1.71 V to 1.89 V		GND		0.35 V_IN	V
I_IN	Input current	V_IN = 0 V or 1.89 V, V_IN = 1.71 V to 1.89 V		–20	±1	20	µA
V_OH	High level output voltage	V_DDIO = 1.71 V to 1.89 V, I_OH = −4 mA		V_DDIO – 0.45		V_DDIO	V
V_OL	Low level output voltage	V_DDIO = 1.71 V to 1.89 V I_OL = 4 mA	Deserializer LVCMOS outputs	GND		0.45	V
I_OS	Output short circuit current	V_OUT = 0 V	Serializer GPO outputs		–11		mA
I_OS	Output short circuit current	V_OUT = 0 V	Deserializer LVCMOS outputs		–17		mA
I_OZ	TRI-STATE output current	PDB = 0 V, V_OUT = 0 V or V_DD	LVCMOS outputs	–20		20	µA
LVCMOS DC SPECIFICATIONS 2.8-V I/O (SERIALIZER INPUTS, GPI, GPO, CONTROL INPUTS AND OUTPUTS)
V_IH	High level input voltage	V_IN = 2.52 V to 3.08 V		0.7 V_IN		V_IN	V
V_IL	Low level input voltage	V_IN = 2.52 V to 3.08 V		GND		0.3 V_IN	V
I_IN	Input current	V_IN = 0 V or 3.08 V, V_IN = 2.52 V to 3.08 V		−20	±1	20	µA
V_OH	High level output voltage	V_DDIO = 2.52 V to 3.08 V, I_OH = −4 mA		V_DDIO – 0.4		V_DDIO	V
V_OL	Low level output voltage	V_DDIO =2.52 V to 3.08 V I_OL = 4 mA	Deserializer LVCMOS outputs	GND		0.4	V
I_OS	Output short circuit current	V_OUT = 0 V	Serializer GPO outputs		−11		mA
I_OS	Output short circuit current	V_OUT = 0 V	Deserializer LVCMOS outputs		−20		mA
I_OZ	TRI-STATE output current	PDB = 0 V, V_OUT = 0 V or V_DD	LVCMOS outputs	−20		20	µA
CML DRIVER DC SPECIFICATIONS (DOUT+, DOUT–)
\|V_OD\|	Output differential voltage	R_L = 100 Ω (see Figure 9)		268	340	412	mV
ΔV_OD	Output differential voltage unbalance	R_L = 100 Ω			1	50	mV
V_OS	Output differential offset voltage	R_L = 100 Ω (see Figure 9)			V_DD– V_OD/2		V
ΔV_OS	Offset voltage unbalance	R_L = 100 Ω			1	50	mV
I_OS	Output short circuit current	DOUT± = 0 V			–26		mA
R_T	Differential internal termination resistance	Differential across DOUT+ and DOUT–		80	100	120	Ω
CML RECEIVER DC SPECIFICATIONS (RIN0+, RIN0–, RIN1+, RIN1– )
I_IN	Input current	V_IN = V_DD or 0 V, V_DD = 1.89 V		−20	1	20	µA
R_T	Differential internal termination resistance	Differential across RIN+ and RIN-		80	100	120	Ω
CML RECEIVER AC SPECIFICATIONS (RIN0+, RIN0–, RIN1+, RIN1– )
\|V_swing\|	Minimum allowable swing for 1010 pattern⁽⁴⁾	Line rate = 1.4 Gbps (see Figure 11)		135			mV
CML MONITOR OUTPUT DRIVER SPECIFICATIONS (CMLOUTP, CMLOUTN)
E_w	Differential output eye opening	R_L = 100 Ω Jitter frequency > f / 40 (see Figure 20)			0.45		UI
E_H	Differential output eye height	R_L = 100 Ω Jitter frequency > f / 40 (see Figure 20)			200		mV
*SERIALIZER AND DESERIALIZER SUPPLY CURRENT DIGITAL, PLL, AND ANALOG VDD**
I_DDT	Serializer (TX) V_DDn supply current (includes load current)	R_L = 100 Ω WORST CASE pattern (see Figure 6)	VDDn = 1.89 V VDDIO = 3.6 V f = 100 MHz, 10-bit mode default registers		61	80	mA
			VDDn = 1.89 V VDDIO = 3.6 V f = 75 MHz, 12-bit high-frequency mode default registers		61	80	mA
			VDDn = 1.89 V VDDIO = 3.6 V f = 50 MHz, 12-bit low-frequency mode default registers		61	80	mA
		R_L = 100 Ω RANDOM PRBS-7 pattern	VDDn = 1.89 V VDDIO = 3.6 V f = 100 MHz, 10-bit mode default registers		54		mA
			VDDn = 1.89 V VDDIO = 3.6 V f = 75 MHz, 12-bit high-frequency mode default registers		54
			VDD = 1.89 V VDDIO = 3.6 V f = 50 MHz, 12-bit low-frequency mode default registers		54
I_DDIOT	Serializer (TX) VDDIO supply current (includes load current)	R_L = 100 Ω WORST CASE pattern (see Figure 6)	VDDIO = 1.89 V f = 75 MHz, 12-bit high-freq mode default registers		1.5	3	mA
I_DDIOT		R_L = 100 Ω WORST CASE pattern (see Figure 6)	VDDIO = 3.6 V f = 75 MHz, 12-bit high-frequency mode default registers		5	8	mA
I_DDTZ	Serializer (TX) supply current power-down	PDB = 0 V; all other LVCMOS inputs = 0 V	VDDIO = 1.89 V Default registers		300	900	µA
I_DDTZ	Serializer (TX) supply current power-down	PDB = 0 V; all other LVCMOS inputs = 0 V	VDDIO = 3.6 V Default registers		300	900	µA
I_DDIOTZ	Serializer (TX) VDDIO supply current power-down	PDB = 0 V; All other LVCMOS Inputs = 0 V	VDDIO = 1.89 V Default registers		15	100	µA
I_DDIOTZ	Serializer (TX) VDDIO supply current power-down	PDB = 0 V; All other LVCMOS Inputs = 0 V	VDDIO = 3.6 V Default registers		15	100	µA
I_DDIOR	Deserializer (RX) total supply current (includes load current)	V_DDIO = 1.89 V C_L = 8 pF WORST CASE pattern	f = 100 MHz, 10-bit mode		22	42	mA
			f = 75 MHz, 12-bit high-freq mode		19	39
			f = 50 MHz, 12-bit low-freq mode		21	32
		V_DDIO = 1.89 V C_L=8pF Random pattern	f = 100 MHz, 10–bit mode		15		mA
			f = 75 MHz, 12-bit high-freq mode		12
			f = 50 MHz, 12-bit low-freq mode		14
		V_DDIO = 3.6 V C_L = 8 pF WORST CASE pattern	f = 100 MHz, 10-bit mode		42	55	mA
			f = 75 MHz, 12-bit high-freq mode		37	50
			f = 50 MHz, 12-bit low-freq mode		25	38
		V_DDIO = 3.6 V C_L = 8 pF Random pattern	f = 100 MHz, 10-bit mode		35		mA
			f = 75 MHz, 12-bit high-freq mode		30
			f = 50 MHz, 12-bit low-freq mode		18
		V_DDIO = 1.89 V C_L = 4 pF WORST CASE pattern	f = 100 MHz, 10-bit mode		15		mA
			f = 75 MHz, 12-bit high-freq mode		11
			f = 50 MHz, 12-bit low-freq mode		16
		V_DDIO = 1.89 V C_L = 4 pF Random pattern	f = 100 MHz, 10-bit mode		8		mA
			f = 75 MHz, 12-bit high-freq mode		4
			f = 50 MHz, 12-bit low-freq mode		9
		V_DDIO = 3.6 V C_L = 4 pF WORST CASE pattern	f = 100 MHz, 10-bit mode		36		mA
			f = 75 MHz, 12-bit high-freq mode		29
			f = 50 MHz, 12-bit low-freq mode		20
		V_DDIO = 3.6 V C_L = 4 pF Random pattern	f = 100 MHz, 10-bit mode		29		mA
			f = 75 MHz, 12-bit high-freq mode		22
			f = 50 MHz, 12-bit low-freq mode		13
I_DDR	Deserializer (RX) VDDn supply current (includes load current)	V_DDn = 1.89 V C_L = 4 pF WORST CASE pattern	f = 100 MHz, 10-bit mode		64	110	mA
			f = 75 MHz, 12-bit high-frequency mode		67	114
			f = 50 MHz, 12-bit low-frequency mode		63	96
		V_DDn = 1.89 V C_L = 4 pF Random pattern	f = 100 MHz, 10-bit mode		57
			f = 75 MHz, 12–bit high-frequency mode		60
			f = 50 MHz, 12-bit low-frequency mode		56
I_DDRZ	Deserializer (RX) supply current power-down	PBB = 0 V, all other LVCMOS Inputs=0 V	VDDIO = 1.89 V Default registers		42	400	µA
I_DDRZ	Deserializer (RX) supply current power-down	PBB = 0 V, all other LVCMOS Inputs=0 V	VDDIO = 3.6 V Default registers		42	400	µA
I_DDIORZ	Deserializer (RX) VDD supply current power-down	PDB = 0 V, all other LVCMOS Inputs = 0 V	V_DDIO = 1.89 V		8	40	µA
I_DDIORZ	Deserializer (RX) VDD supply current power-down	PDB = 0 V, all other LVCMOS Inputs = 0 V	V_DDIO = 3.6 V		360	800	µA

(1) The Electrical Characteristics tables list ensured specifications under the listed Recommended Operating Conditions except as otherwise modified or specified by the Electrical Characteristics Conditions and/or Notes. Typical specifications are estimations only and are not ensured.

(2) Current into device pins is defined as positive. Current out of a device pin is defined as negative. Voltages are referenced to ground except VOD, ΔVOD, VTH and VTL which are differential voltages.

(3) Typical values represent most likely parametric norms at 1.8 V or 3.3 V, T_A = 25°C, and at the Recommended Operation Conditions at the time of product characterization and are not specified.

(4) Specification is ensured by characterization and is not tested in production.

8.6 Timing Requirements: Recommended for Serializer PCLK

over recommended operating supply and temperature ranges unless otherwise specified.⁽¹⁾

		TEST CONDITIONS	PIN/FREQ	MIN	NOM	MAX	UNIT
t_TCP	Transmit clock period	10-bit mode		10	T	50	ns
		12-bit high-frequency mode		13.33	T	66.66
		12-bit low-frequency mode		20	T	100
t_TCIH	Transmit clock input high time			0.4T	0.5T	0.6T	ns
t_TCIL	Transmit clock input low time			0.4T	0.5T	0.6T	ns
t_CLKT	PCLK input transition time (Figure 12)	20 MHz–100 MHz, 10-bit mode		0.5T	2.5T	0.3T	ns
		15 MHz to 75 MHz, 12-bit high-frequency mode		0.5T	2.5T	0.3T
		10 MHz to 50 MHz, 12-bit low-frequency mode		0.5T	2.5T	0.3T
t_JIT0	PCLK input jitter (PCLK from imager mode)	Refer to jitter freq > f / 40	f = 10 to 100 MHz		0.1T		ns
t_JIT1	PCLK input jitter (external oscillator mode)	Refer to jitter freq > f / 40	f = 10 to 100 MHz		1T		ns
t_JIT2	External oscillator jitter				0.1		UI

(1) Recommended input timing requirements are input specifications and not tested in production.

8.7 AC Timing Specifications (SCL, SDA) - I²C Compliant

over recommended supply and temperature ranges unless otherwise specified. (See Figure 5)

		TEST CONDITIONS	MIN	MAX	UNIT
RECOMMENDED INPUT TIMING REQUIREMENTS
f_SCL	SCL clock frequency	Standard mode	>0	100	kHz
f_SCL	SCL clock frequency	Fast mode	>0	400	kHz
t_LOW	SCL low period	Standard mode	4.7		µs
t_LOW	SCL low period	Fast mode	1.3		µs
t_HIGH	SCL high period	Standard mode	4.0		µs
t_HIGH	SCL high period	Fast mode	0.6		µs
t_HD:STA	Hold time for a start or a repeated start condition	Standard mode	4		µs
t_HD:STA	Hold time for a start or a repeated start condition	Fast mode	0.6		µs
t_SU:STA	Setup time for a start or a repeated start condition	Standard mode	4.7		µs
t_SU:STA	Setup time for a start or a repeated start condition	Fast mode	0.6		µs
t_HD:DAT	Data hold time	Standard mode	0	3.45	µs
t_HD:DAT	Data hold time	Fast mode	0	900	µs
t_SU:DAT	Data setup time	Standard mode	250		ns
t_SU:DAT	Data setup time	Fast mode	100		ns
t_SU:STO	Setup time for STOP condition	Standard mode	4		µs
t_SU:STO	Setup time for STOP condition	Fast mode	0.6		µs
t_BUF	Bus free time between stop and start	Standard mode	4.7		µs
t_BUF	Bus free time between stop and start	Fast mode	1.3		µs
t_r	SCL and SDA rise time	Standard mode		1000	ns
t_r	SCL and SDA rise time	Fast mode		300	ns
t_f	SCL and SDA fall time	Standard mode		300	ns
t_f	SCL and SDA fall time	Fast mode		300	ns

8.8 Bidirectional Control Bus DC Timing Specifications (SCL, SDA) - I²C Compliant

over recommended supply and temperature ranges unless otherwise specified⁽¹⁾

		TEST CONDITIONS	MIN	NOM	MAX	UNIT
RECOMMENDED INPUT TIMING REQUIREMENTS
V_IH	Input high level	SDA and SCL	0.7 × V_DDIO		V_DDIO	V
V_IL	Input low level	SDA and SCL	GND		0.3 × V_DDIO	V
V_HY	Input hysteresis			>50		mV
V_OL	Output low level	SDA, I_OL = 0.5 mA	0		0.4	V
I_IN	Input current	SDA or SCL, V_IN = V_DDOP OR GND	−10		10	µA
t_R	SDA rise time-READ	SDA, RPU = 10 kΩ, Cb ≤ 400 pF (see Figure 5)		430		ns
t_F	SDA fall time-READ	SDA, RPU = 10 kΩ, Cb ≤ 400 pF (see Figure 5)		20		ns
t_SU;DAT		See Figure 5		560		ns
t_HD;DAT		See Figure 5		615		ns
t_SP				50		ns
C_IN		SDA or SCL		<5		pF

(1) Specification is ensured by design.

8.9 Switching Characteristics: Serializer

over recommended operating supply and temperature ranges unless otherwise specified.

PARAMETER		TEST CONDITIONS	MIN	TYP	MAX	UNIT
t_LHT	CML low-to-high transition time	R_L = 100 Ω (see Figure 7)		150	330	ps
t_HLT	CML high-to-low transition time	R_L = 100 Ω (see Figure 7)		150	330	ps
t_DIS	Data input setup to PCLK	Serializer data inputs (see Figure 13)	2			ns
t_DIH	Data input hold from PCLK	Serializer data inputs (see Figure 13)	2			ns
t_PLD	Serializer PLL lock time	R_L = 100 Ω⁽¹⁾⁽²⁾, (see Figure 14)		1	2	ms
t_SD	Serializer delay⁽²⁾	R_T = 100 Ω, 10-bit mode Register 0x03h b[0] (TRFB = 1) (see Figure 15)	32.5T	38T	44T	ns
t_SD	Serializer delay⁽²⁾	R_T = 100 Ω, 12-bit mode Register 0x03h b[0] (TRFB = 1) (see Figure 15)	11.75T	13T	15T	ns
t_JIND	Serializer output deterministic jitter	Serializer output intrinsic deterministic jitter. Measured (cycle-cycle) with PRBS-7 test pattern⁽³⁾⁽⁴⁾		0.13		UI
t_JINR	Serializer output random jitter	Serializer output intrinsic random jitter (cycle-cycle). Alternating-1,0 pattern.⁽³⁾⁽⁴⁾		0.04		UI
t_JINT	Peak-to-peak serializer output jitter	Serializer output peak-to-peak jitter includes deterministic jitter, random jitter, and jitter transfer from serializer input. Measured (cycle-cycle) with PRBS-7 test pattern.⁽³⁾⁽⁴⁾		0.396		UI
λ_STXBW	Serializer jitter transfer function –3-dB bandwidth⁽⁵⁾	PCLK = 100 MHz 10-bit mode. Default registers		2.2		MHz
		PCLK = 75 MHz 12-bit high-frequency mode. Default registers		2.2
		PCLK = 50 MHz 12-bit low-frequency mode. Default registers		2.2
δ_STX	Serializer jitter transfer function (peaking)⁽⁵⁾	PCLK = 100 MHz 10-bit mode. Default Registers		1.06		dB
		PCLK = 75 MHz 12-bit high-frequency mode. Default registers		1.09
		PCLK = 50 MHz 12-bit low-frequency mode. Default registers		1.16
δ_STXf	Serializer jitter transfer function (peaking frequency)⁽⁵⁾	PCLK = 100 MHz 10-bit mode. Default registers		400		kHz
		PCLK = 75 MHz 12-bit high-frequency mode. Default registers		500
		PCLK = 50 MHz 12-bit low-frequency mode. Default registers		600

(1) t_PLD and t_DDLT is the time required by the serializer and deserializer to obtain lock when exiting power-down state with an active PCLK

(2) Specification is ensured by design.

(3) Typical values represent most likely parametric norms at 1.8 V or 3.3 V, T_A = 25°C, and at the recommended operation conditions at the time of product characterization and are not specified.

(4) UI – Unit Interval is equivalent to one ideal serialized data bit width. The UI scales with PCLK frequency.

(5) Specification is ensured by characterization and is not tested in production.

8.10 Switching Characteristics: Deserializer

over recommended operating supply and temperature ranges unless otherwise specified.

PARAMETER		TEST CONDITIONS	PIN/FREQ	MIN	TYP	MAX	UNIT
t_RCP	Receiver output clock period	10-bit mode	PCLK (see Figure 19)	10		50	ns
		12-bit high-frequency mode		13.33		66.66
		12-bit low-frequency mode		10		100
t_PDC	PCLK duty cycle	10-bit mode	PCLK	45%	50%	55%
		12-bit high-frequency mode		40%	50%	60%
		12-bit low-frequency mode		40%	50%	60%
t_CLH	LVCMOS low-to-high transition time	V_DDIO: 1.71 V to 1.89 V or 3.0 V to 3.6 V, C_L = 8 pF (lumped load) Default registers (see Figure 17)⁽¹⁾	PCLK	1.3	2	2.8	ns
t_CHL	LVCMOS high-to-low transition time		PCLK	1.3	2	2.8	ns
t_CLH	LVCMOS low-to-high transition time	V_DDIO: 1.71 V to 1.89 V or 3.0 V to 3.6 V, C_L = 8 pF (lumped load) Default registers (see Figure 17)⁽¹⁾	ROUT[11:0], HS, VS	1	2.5	4	ns
t_CHL	LVCMOS high-to-low transition time		ROUT[11:0], HS, VS	1	2.5	4	ns
t_ROS	ROUT setup data to PCLK	V_DDIO: 1.71 V to 1.89 V or 3.0 V to 3.6 V, C_L = 8 pF (lumped load) Default registers (see Figure 19)	ROUT[11:0], HS, VS	0.38T	0.5T		ns
t_ROH	ROUT hold data to PCLK		ROUT[11:0], HS, VS	0.38T	0.5T		ns
t_DD	Deserializer delay	Default registers Register 0x03h b[0] (RRFB = 1) (see Figure 18)⁽¹⁾	10-bit mode	154T		158T	ns
			12-bit low-frequency mode	109T		112T
			12-bit high-frequency mode	73T		75T
t_DDLT	Deserializer data lock time	With Adaptive Equalization (see Figure 16)	10-bit mode		15	22	ms
			12-bit low-frequency mode		15	22
			12-bit high-frequency mode		15	22
t_RCJ	Receiver clock jitter	PCLK SSCG[3:0] = OFF⁽¹⁾	10-bit mode PCLK = 100 MHz		20	30	ps
			12-bit low-frequency mode PCLK = 50 MHz		22	35
			12-bit high-frequency mode PCLK = 75 MHz		45	90
t_DPJ	Deserializer period jitter	PCLK SSCG[3:0] = OFF⁽¹⁾⁽²⁾	10-bit mode PCLK = 100 MHz		170	815	ps
			12-bit low-frequency mode PCLK= 50 MHz		180	330
			12-bit high-frequency mode PCLK= 75 MHz		300	515
t_DCCJ	Deserializer cycle-to-cycle clock jitter	PCLK SSCG[3:0] = OFF⁽¹⁾⁽³⁾	10-bit mode PCLK = 100 MHz		440	1760	ps
			12-bit low-frequency mode PCLK = 50 MHz		460	730
			12-bit high-frequency mode PCLK = 75 MHz		565	985
fdev	Spread spectrum clocking deviation frequency	LVCMOS output bus SSC[3:0] = ON (see Figure 24)⁽¹⁾	10 MHz–100 MHz		±0.5 to ±1.5%
fmod	Spread spectrum clocking modulation frequency	LVCMOS output bus SSC[3:0] = ON (see Figure 24)⁽¹⁾	10 MHz–100 MHz		5 to 50		kHz

(1) Specification is ensured by characterization and is not tested in production.

(2) t_DPJ is the maximum amount the period is allowed to deviate measured over 30,000 samples.

(3) t_DCCJ is the maximum amount of jitter between adjacent clock cycles measured over 30,000 samples.

8.11 Typical Characteristics

DS90UB913Q-Q1 DS90UB914Q-Q1 30144688.gif

Figure 1. Typical Serializer Jitter Transfer Function
at 100 MHz

DS90UB913Q-Q1 DS90UB914Q-Q1 30144675.gif

Figure 3. Maximum Equalizer Gain vs. Line Frequency

DS90UB913Q-Q1 DS90UB914Q-Q1 30144659.gif

Figure 2. Typical Deserializer Input Jitter Tolerance Curve
at 1.4-Gbps Line Rate

DS90UB913Q-Q1 DS90UB914Q-Q1 30144687.gif

Figure 4. Adaptive Equalizer – Interconnect Loss Compensation