-- Copyright (C) 2001-2002 The University of Cincinnati.
-- All rights reserved.
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-- package under the terms of the "GNU GENERAL PUBLIC LICENSE" version 2,
-- June 1991. A copy of this license agreement can be found in the file
-- "COPYING", distributed with this archive.
-- You should have received a copy of the GNU General Public License
-- along with VESTs; if not, write to the Free Software Foundation,
-- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
-- ---------------------------------------------------------------------
--
-- $Id: test158.ams,v 1.1 2002-03-27 22:11:19 paw Exp $
-- $Revision: 1.1 $
--
-- ---------------------------------------------------------------------
----------------------------------------------------------------------
-- SIERRA REGRESSION TESTING MODEL
-- Develooped at:
-- Distriburted Processing Laboratory
-- University of Cincinnati
-- Cincinnati
----------------------------------------------------------------------
-- File : test134.ams
-- Author(s) : Geeta Balarkishnan(gbalakri@ececs.uc.edu)
-- Created : June 2001
----------------------------------------------------------------------
-- Description :
----------------------------------------------------------------------
-- this is a test to check the corretness of the implemntation of the break
-- statement and also the use of quantity port of type voltage.
-- this is a vco model which first sets the initial condition
-- using a break statement. Then again, a break statement is applied to keep
-- the phase within 0-2pi. Thr output voltage eqn is obtained as vout and the
-- phase eqn as phase'dot.
-- LRM ref: 8.14, 4.3.2.
----------------------------------------------------------------------
PACKAGE electricalSystem IS
-- SUBTYPE voltage is real;
NATURE electrical IS real ACROSS real THROUGH ground reference;
FUNCTION SIN(X : real) RETURN real;
FUNCTION EXP(X : real) RETURN real;
FUNCTION SQRT(X : real) RETURN real;
FUNCTION POW(X,Y : real) RETURN real;
END PACKAGE electricalSystem;
use work.electricalSystem.all;
entity vco is
generic(
fc: real := 1.0e6; -- VCO frequency at Vc
df: real := 0.5e6; -- [Hz/V], frequency characteristic slope
Vc: voltage := 0.0 -- centre frequency input voltage
);
port( quantity Vin: in real;
terminal OutTerminal: electrical);
end entity VCO;
architecture avco of vco is
constant TwoPi: real := 6.283118530718; -- 2pi
quantity Phase : real;
-- define a branch for the output voltage source
quantity Vout across Iout through OutTerminal to electrical'reference;
begin
-- use break to set the phase initial condition
break Phase => 0.0;
-- another break statement keeps the phase within 0.. 2pi
break Phase => Phase mod TwoPi on Phase'above(TwoPi);
-- phase equation
Phase'dot == TwoPi*realmax(0.5E6, fc+(Vin-Vc)*df);
-- output voltage source equation
Vout == 2.5*(1.0+sin(Phase));
end architecture avco;