KSFoundation_KSRF.h File Reference

#include <KSFoundation.h>

Variables
const KS_RF	exc_tbw21
const KS_RF	ref_tbw21
const KS_RF	exc_SPSP3D_150mm_stbw10_etbw4_lin_lin
const KS_WAVE	exc_SPSP3D_150mm_stbw10_etbw4_lin_lin_gz
const KS_RF	exc_SPSP3D_150mm_stbw10_etbw4_lin_min
const KS_WAVE	exc_SPSP3D_150mm_stbw10_etbw4_lin_min_gz
const KS_RF	exc_SPSP3D_150mm_stbw10_etbw5_lin_min
const KS_WAVE	exc_SPSP3D_150mm_stbw10_etbw5_lin_min_gz
const KS_RF	exc_SPSP3D_150mm_stbw10_etbw4_min_min
const KS_WAVE	exc_SPSP3D_150mm_stbw10_etbw4_min_min_gz
const KS_RF	exc_SPSP3D_150mm_stbw10_etbw5_min_min
const KS_WAVE	exc_SPSP3D_150mm_stbw10_etbw5_min_min_gz
const KS_RF	exc_SPSP3D_150mm_stbw10_etbw6_min_min
const KS_WAVE	exc_SPSP3D_150mm_stbw10_etbw6_min_min_gz
const KS_RF	exc_SPSP3D_150mm_stbw10_etbw4_max_max
const KS_WAVE	exc_SPSP3D_150mm_stbw10_etbw4_max_max_gz
const KS_RF	exc_SPSP3D_150mm_stbw10_etbw5_max_max
const KS_WAVE	exc_SPSP3D_150mm_stbw10_etbw5_max_max_gz
const KS_RF	exc_SPSP3D_40mm_stbw4_etbw5_min_min
const KS_WAVE	exc_SPSP3D_40mm_stbw4_etbw5_min_min_gz
const KS_RF	exc_SPSP3D_40mm_stbw4_etbw6_min_min
const KS_WAVE	exc_SPSP3D_40mm_stbw4_etbw6_min_min_gz

Detailed Description

This is an auto-generated file that contains home made RF pulses converted to KS_RF objects.

To use one of these KS_RF pulses, do the following in the pulse sequence:

1. Declare a KS_RF object in the @ipgexport section
   • KS_RF myrf = KS_INIT_RF;
2. Assign the KS_RF object after choosing one in KSFoundation_GERF.h
   • e.g. myrf = exc_fse90

DISCLAIMER:

Absolutely no promises are made regarding correct flip angle, SAR calculation data, etc. on any MR system. Use of these RF pulses are at your own risk, and for investigational use only

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Variable Documentation

exc_tbw21

const KS_RF exc_tbw21

ref_tbw21

const KS_RF ref_tbw21

exc_SPSP3D_150mm_stbw10_etbw4_lin_lin

const KS_RF exc_SPSP3D_150mm_stbw10_etbw4_lin_lin

exc_SPSP3D_150mm_stbw10_etbw4_lin_lin_gz

const KS_WAVE exc_SPSP3D_150mm_stbw10_etbw4_lin_lin_gz

exc_SPSP3D_150mm_stbw10_etbw4_lin_min

const KS_RF exc_SPSP3D_150mm_stbw10_etbw4_lin_min

exc_SPSP3D_150mm_stbw10_etbw4_lin_min_gz

const KS_WAVE exc_SPSP3D_150mm_stbw10_etbw4_lin_min_gz

exc_SPSP3D_150mm_stbw10_etbw5_lin_min

const KS_RF exc_SPSP3D_150mm_stbw10_etbw5_lin_min

exc_SPSP3D_150mm_stbw10_etbw5_lin_min_gz

const KS_WAVE exc_SPSP3D_150mm_stbw10_etbw5_lin_min_gz

exc_SPSP3D_150mm_stbw10_etbw4_min_min

const KS_RF exc_SPSP3D_150mm_stbw10_etbw4_min_min

exc_SPSP3D_150mm_stbw10_etbw4_min_min_gz

const KS_WAVE exc_SPSP3D_150mm_stbw10_etbw4_min_min_gz

exc_SPSP3D_150mm_stbw10_etbw5_min_min

const KS_RF exc_SPSP3D_150mm_stbw10_etbw5_min_min

exc_SPSP3D_150mm_stbw10_etbw5_min_min_gz

const KS_WAVE exc_SPSP3D_150mm_stbw10_etbw5_min_min_gz

exc_SPSP3D_150mm_stbw10_etbw6_min_min

const KS_RF exc_SPSP3D_150mm_stbw10_etbw6_min_min

exc_SPSP3D_150mm_stbw10_etbw6_min_min_gz

const KS_WAVE exc_SPSP3D_150mm_stbw10_etbw6_min_min_gz

exc_SPSP3D_150mm_stbw10_etbw4_max_max

const KS_RF exc_SPSP3D_150mm_stbw10_etbw4_max_max

exc_SPSP3D_150mm_stbw10_etbw4_max_max_gz

const KS_WAVE exc_SPSP3D_150mm_stbw10_etbw4_max_max_gz

exc_SPSP3D_150mm_stbw10_etbw5_max_max

const KS_RF exc_SPSP3D_150mm_stbw10_etbw5_max_max

exc_SPSP3D_150mm_stbw10_etbw5_max_max_gz

const KS_WAVE exc_SPSP3D_150mm_stbw10_etbw5_max_max_gz

exc_SPSP3D_40mm_stbw4_etbw5_min_min

const KS_RF exc_SPSP3D_40mm_stbw4_etbw5_min_min

exc_SPSP3D_40mm_stbw4_etbw5_min_min_gz

const KS_WAVE exc_SPSP3D_40mm_stbw4_etbw5_min_min_gz

exc_SPSP3D_40mm_stbw4_etbw6_min_min

const KS_RF exc_SPSP3D_40mm_stbw4_etbw6_min_min

exc_SPSP3D_40mm_stbw4_etbw6_min_min_gz

const KS_WAVE exc_SPSP3D_40mm_stbw4_etbw6_min_min_gz