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THE COMPLETE PLL SOLUTION

TRU-050!

TRU-050

Flexible Modular Solution
A Quartz Stabilized PLL

It's a phased-locked loop ASIC with a quartz stabilized VCXO!

It will:
Reduce:	design time	Improve:	jitter performance
	component count		reliability
	board space

It performs:
Clock recovery & data retiming
Frequency translation
Clock smoothing

In applications up to 65.536 Mb/s:
ATM, SONET/SDH
XDSL, Network communications
Digital audio/video, PBX systems
	What Does It Do?
Vectron International's TRU-050 module is a user-configured, phase-locked loop (PLL) solution designed to simplify a wide variety of clock recovery and data retiming, frequency translation and clock smoothing applications. The device features a phase-lock loop ASIC with a quartz stabilized VCXO for superior stability and jitter performance. This highly integrated module provides unsurpassed performance, reliability and quality. The proprietary ASIC device includes a refined Phase Detector, a Loop Filter Op-Amp, a Loss of Signal Alarm with Clock Return to Nominal feature, a VCXO circuit, and an optional 2n Output Frequency Division circuit. The ASIC and quartz resonator are housed in a hermetic 16-pin DIL ceramic package with optional thru-hole or surface mount leads. The VCXO frequency (OUT1) and division factor (OUT2) are factory set in accordance with customer specifications. PLL response is optimized for each application by the selection of three external passive components. Software is available from Vectron to aid in loop filter component selection and loop response modeling.

Features:		Benefits:
PLL with quartz stabilized VCXO Output jitter less than 20 ps Loss of signal (LOS) alarm Return to nominal clock upon LOS Input data rates from 8 kb/s to 65.536 Mb/s Surface mount option Tri-state option User defined PLL loop response NRZ data compatible Robust hermetic ceramic package Single or +5.0V supply (+3.3V option available)		Flexible modular solution Reduce design time Increase circuit reliability Less board space Reduces component count

What's below...

Electrical Characteristics
Absolute Pull Range
Outline Diagrams
Pin Information
Standard Frequencies

Product Data Sheet TRU050 Product Data Sheet (173 KB) CD-700 Brochure, A quartz stabilized PLL (672 K) CD-700/TRU-050 Code Mark Inversion (CMI) Input Data (32 K) Tutorial on Clock and Data Recovery Devices Definition of Absolute Pull Range (404 K)

Product Software Download Loop Component Selection & Simulation Software Download Instructions For Loop Component Selection & Simulation Software

Electrical Characteristics

Parameter	Symbol	Min	Max	Unit
Input NRZ Data Rates	DATAIN	0.008	65.536	MHz
Input RZ Data and Clock Rates¹	DATAIN	0.016	32.768	MHz
Nominal Output Frequency: Output 1 Output 2²	OUT1 OUT2	14.0 0.05	65.536 32.768	MHz MHz
Supply Voltage	V_DD	4.5	5.5	V
Supply Current (V_DD=4.5 V)	I_DD	25	60	mA
Output Voltage Levels (V_DD=4.5 V): Output Logic High³ Output Logic Low³	V_OH V_OL	2.5 -	- 0.5	V V
Transition Times³: Rise Time (0.5 V to 2.5 V) Fall Time (2.5 V to 0.5 V)	t_R t_F	0.5 0.5	5 5	ns ns
Symmetry or Duty Cycle⁴: Output 1 Output 2² Recovered Clock	SYM1 SYM2 R_CLK	40 45 40	60 55 60	% % %
Input Data: Input Logic High³ Input Logic Low³	V_IH V_IL	2.0 -	- 0.8	V V
Control Voltage Bandwidth (-3 dB, V_C=2.50 V)	BW	50	-	kHz
Sensitivity @ V_C=V_O	F/V_C	See Figure 4.		ppm/V
Loss of Signal Indication⁵: Output Logic High³ Output Logic Low³	L_OS V_OH V_OL	2.5 -	- 0.5	V V
Nominal Output Frequency on Loss of Signal: Output 1 Output 2	OUT1 OUT2	-75 ppm -75 ppm	75 ppm 75 ppm	ppm from fo1 ppm from fo2
Phase Detector Gain	K_D	-0.53 x Data Density		rad/V

1. For input RZ data, Manchester encoded data, and input clock recovery applications, the output clock must run at two times the input rate to ensure that the input is clocked correctly. Since the output clock has a maximum frequency of 52.0 MHz, these inputs are limited to a maximum rate of 26 MHz.
2. OUT2 is a binary submultiple of OUT1, as specified in the device code shown in Figure 6. OUT2 may also be disabled.
3. Figure 2 defines these parameters. Figure 3 illustrates the equivalent five-gate MTTL load and operating conditions under which these parameters are specified and tested.
4. Symmetry is the ON TIME/PERIOD in percent with VS=1.4 V for TTL, per Figure 2.
5. A loss of signal (LOS) indicator is set to a logic high if no transitions are detected at DATAIN after 256 clock cycles. As soon as a transition occurs at DATAIN, LOS is set to a logic low.

Absolute Pull

Absolute pull range (APR) is specified by the fourth character of the product code. The APR is the minimum guaranteed frequency shift from F_O over variations in temperature, aging, power supply, and load. Both frequency and environment limit the specified APR. The total pull range for the VCXO contained in the TRU050 is typically between 200 ppm and 400 ppm.

A 50 ppm APR TRU050 fully tracks a 50 ppm source oscillator or any other 50 ppm reference over the operating temperature range, life of the product, power supply and measurement variations.

Parameter	Symbol	Min	Max	Unit
Absolute Frequency Pull Range	APR	-APR	APR	ppm from F_O

Outline Diagram
Thru-Hole

Surface Mount

Pin Information

Pin#	Symbol	Type	Function
1	V_C	\|	Control voltage input to internal voltage-controllable crystal oscillator (VCXO).
2	OPN	\|	Negative input terminal to internal operational amplifier.
3	OPOUT	O	Output terminal of internal operational amplifier.
4	OPP	\|	Positive input terminal to internal operational amplifier.
5	LOSIN	\|	With LOSIN set to a logic high, the external input to the VCXO (V_C) is disabled and the VCXO returns to its nominal center frequency. With LOSIN set to logic low, the external input to the VCXO is enabled. The LOSIN input has an internal pull-down resistor.
6	PHO	O	Output signal produced by phase detector and used as V_C at Pin1.
7	DATAIN	\|	Input data stream to phase detector (TTL switching thresholds).
8	GND	\|	Circuit and cover ground.
9	CLKIN	\|	Input clock signal to phase detector (TTL switching thresholds)..
10	LOS	O	Loss of signal indicator is set to a logic high if no transitions are detected at DATAIN after 256 clock cycles. As soon as a transition occurs at DATAIN, LOS is set to a logic low.
11	RCLK	O	TTL compatible recovered clock.
12	RDATA	O	TTL compatible recovered data stream.
13	OUT2	O	Divided version of internal VCXO output clock (TTL).
14	HIZ	\|	When set to a logic low, output pins OUT1, OUT2, RCLK, and RDATA buffers are set to high-impedance state. When set to a logic high or no connect, the device functions and output pins OUT1, OUT2, RCLK, and RDATA are active. This input has an internal pull-up resistor.
15	OUT1	O	Output clock of internal VCXO (TTL).
16	V_DD	\|	5 V ± 10% supply voltage. (3.3 V option available)

*Standard Frequencies (MHz) using OUT 1**
12.032	12.288	12.624	13.824	16.000	16.128	16.384
16.777	16.896	17.920	18.432	18.936	19.440	20.000
20.480	22.1184	22.579	24.576	24.704	25.000	25.248
28.000	30.720	32.000	32.768	33.330	34.368	38.880
40.000	40.960	41.2416	41.943	44.736	47.457	49.152
49.408	50.000	51.840	65.536

*Standard Frequencies (MHz) using OUT 2**
1.000	1.024	1.544	2.048	3.088	3.240	4.032
4.096	4.1925	4.224	5.592	6.016	6.144	6.312
6.480	6.912	7.680	8.000	8.192	8.448	8.960
9.468	9.720	10.000	10.240	11.0592	12.352	12.500
12.960	14.000	16.000	16.384	16.665	19.440	20.000
20.6208	20.9715	22.368	23.7285	24.576	24.704	25.920
32.768

* Other frequencies available upon request.