Multifunctional healthcare monitoring apparatus

What is claimed: 1 . A multifunctional healthcare monitoring apparatus comprising: a motorized driver; a first pump coupled to the motorized driver, the first pump configured to produce airflow in a first direction; and a second pump coupled to the motorized driver, the second pump configured to produce airflow in a second direction, the airflow in the first direction being substantially opposite the airflow in the second direction. 2 . The multifunctional healthcare monitoring apparatus of claim 1 further comprising a direct current (DC) micro motor coupled to the motorized driver. 3 . The multifunctional healthcare monitoring apparatus of claim 2 , wherein the DC micro motor comprises a DC micro motor having a precious metal commutator. 4 . The multifunctional healthcare monitoring apparatus of claim 1 , wherein the motorized driver comprises a motorized drive shaft. 5 . The multifunctional healthcare monitoring apparatus of claim 1 , wherein the motorized driver comprises a reciprocating drive shaft. 6 . The multifunctional healthcare monitoring apparatus of claim 1 , wherein the first pump comprises a pump configured to facilitate capnography functionality. 7 . The multifunctional healthcare monitoring apparatus of claim 1 , wherein the second pump comprises a pump configured to facilitate non-invasive blood pressure (NIBP) monitoring functionality. 8 . The multifunctional healthcare monitoring apparatus of claim 1 , wherein the first pump comprises a pump configured to facilitate chemical analysis utilizing micro-electro-mechanical systems (MEMS) devices. 9 . The multifunctional healthcare monitoring apparatus of claim 8 further comprising a lab-on-chip (LOC) device. 10 . The multifunctional healthcare monitoring apparatus of claim 1 , wherein the second pump comprises a pump configured to facilitate continuous positive airway pressure (CPAP) functionality. 11 . The multifunctional healthcare monitoring apparatus of claim 1 , wherein the first pump comprises at least one of a pump having a piston or a pump having an impeller. 12 . The multifunctional healthcare monitoring apparatus of claim 1 , wherein the second pump comprises at least one of a pump having a piston or a pump having an impeller. 13 . The multifunctional healthcare monitoring apparatus of claim 1 , wherein the first pump and/or the second pump comprises at least one of a positive displacement type vacuum pump, a momentum transfer type vacuum pump, or an entrapment type vacuum pump. 14 . A method of operating a multifunctional healthcare monitoring apparatus having a first pump and a second pump, the method comprising: engaging a common drive coupling at the first pump, the first pump configured to provide substantially continuous pressure; receiving an indication to measure blood pressure; engaging the common drive coupling at the second pump, the second pump configured to provide pressure at predetermined intervals to a blood pressure cuff; determining if the blood pressure cuff is at or above a person's systolic pressure; if it is determined that the blood pressure cuff is at or above the person's systolic pressure, disengaging the common drive coupling from the second pump; deflating the blood pressure cuff; and determining a systolic pressure and a diastolic pressure based, at least in part, on the deflation of the blood pressure cuff. 15 . The method of claim 14 , wherein engaging the common drive coupling at the first pump comprises engaging the common drive coupling to facilitate capnography functionality. 16 . The method of claim 14 , wherein receiving the indication to measure blood pressure comprises receiving the indication from a pneumatic control module. 17 . A machine readable non-transitory medium having stored therein instructions that, when executed by one or more processors, operatively enable a pneumatic control module to: engage a common drive coupling at a first pump, the first pump configured to provide substantially continuous pressure; receive an indication to measure blood pressure; engage the common drive coupling at a second pump, the second pump configured to provide pressure at predetermined intervals to a blood pressure cuff; determine if the blood pressure cuff is at or above a person's systolic pressure; if it is determined that the blood pressure cuff is at or above the person's systolic pressure, disengaging the common drive coupling from second pump; deflate the blood pressure cuff; and determine a systolic pressure and a diastolic pressure based, at least in part, on the deflation of the blood pressure cuff.