Apparatus and method for providing voice call and data service simultaneously on plurality of SIM

The invention claimed is: 1. A method for providing a voice call and a data service in an Evolved-Universal Terrestrial Radio Access Network New Radio-Dual Connectivity (EN-DC) capable User Equipment (UE) supporting a plurality of Subscriber identity modules (SIMs), the method comprising: registering a first SIM of the plurality of SIMs to a first network in a Dual Connectivity with NR (DCNR) supported mode using a first transceiver; registering a second SIM of the plurality of SIMs to a second network in a Dual Connectivity with NR (DCNR) not supported mode using a second transceiver; determining a split bearer established by the first SIM, wherein the split bearer establishment comprises a 4G bearer established on the first transceiver and a 5G bearer established on the second transceiver by the first network using the first SIM; determining the voice call is initiated on the second SIM when the data service is active on the first SIM through the first transceiver and the second transceiver; and configuring the second SIM to provide the voice call over the second transceiver and the first SIM to provide the data services over the first transceiver simultaneously. 2. The method of claim 1 , wherein configuring the second SIM to provide the voice call over the second transceiver and the first SIM to provide the data service over the first transceiver comprising comprises: sending a first Tracking Area Update (TAU) message to the first network to disable the 5G bearer established between the first network and the first SIM on the second transceiver, by setting a DCNR bit to “dual connectivity with NR not supported” mode; determining that the 5G bearer established between the first network and the first SIM on the second transceiver is released by the first network, in response to the first TAU message; and configuring the second SIM to provide the voice call over the second transceiver and the first SIM to provide the data service over the first transceiver. 3. The method of claim 1 , wherein configuring the second SIM to provide the voice call over the second transceiver and the first SIM to provide the data service over the first transceiver comprises: sending a Non-Access Stratum (NAS) message to the first network to disable the 5G bearer established between the first network and the first SIM on the second transceiver, by setting a DCNR bit to “dual connectivity with NR not supported” mode; determining that the 5G bearer established between the first network and the first SIM on the second transceiver is released by the first network, in response to the NAS message; and configuring the second SIM to provide the voice call over the second transceiver and the first SIM to provide the data service over the first transceiver. 4. The method of claim 1 , wherein configuring the second SIM to provide the voice call over the second transceiver and the first SIM to provide the data service over the first transceiver comprises: sending an extended service request message to the first network to release the 5G bearer established between the first network and the first SIM on the second transceiver and the 4G bearer established between the first network and the first SIM on the first transceiver, wherein the extended service request message to the first network moves the UE to an idle mode; sending a first Tracking Area Update (TAU) message to the first network by setting a DCNR bit to “dual connectivity with NR not supported” mode to disable the NR; sending an indication to the first network to establish the 4G bearer between the first network and the first SIM on the first transceiver based on a data session, wherein the 4G bearer is used to provide the data service; and configuring the second SIM provide the voice call over the second transceiver and the first SIM to provide the data service over the first transceiver. 5. The method of claim 1 , wherein configuring the second SIM to provide the voice call over the second transceiver and the first SIM to provide the data service over the first transceiver comprises: initiating a Secondary Cell Group Radio Link Failure (SCG RLF) on the second transceiver; determining that the 5G bearer established between the first network and the first SIM on the second transceiver is released by the first network, in response to the SCG RLF; suspending a measurement report for NR cells to be sent to the first network; and configuring the second SIM to provide the voice call over the second transceiver and the first SIM to provide the data service over the first transceiver. 6. The method of claim 1 , further comprising: determining that a data session is initiated on the first SIM using the first transceiver; determining that a video call is initiated on the second SIM using the second transceiver; determining one of: the data session is ended, an RRC connection is released by the first network, or a mobile data is turned off on the first SIM; sending a first TAU message on the first network with a DCNR bit set to the DCNR not supported mode, wherein the first TAU message indicates to the first network to disable a 5G capability between the first SIM and the first network; sending a second TAU message to the second network with the DCNR bit set to the DCNR supported mode, wherein the second TAU message indicates to the second network to enable the 5G capability between the second SIM and the second network; sending an IMS signaling to the second network indicating to upgrade a bit rate of the video call by shifting the video call over the 5G bearer; and configuring the second SIM to provide video packets over the first transceiver on the 5G bearer and the second transceiver on the 4G bearer and voice packets over the second transceiver on the 4G bearer. 7. The method of claim 1 , further comprising: determining a default data subscription (DDS) is set on the first SIM; determining the first SIM is camped on an LTE band that is configured for a Single UL Transmission (SUL); registering the first SIM to an LTE network in a DCNR bit to “dual connectivity with NR supported” mode on the second transceiver; determining an LTE-NR DC band combination is configured for a SUL operation as per TS 38.101-3 of 3GPP spec and one of the UE or the LTE network supports the LTE-NR DC band combination; initiating a data session on the first SIM using the first transceiver on the first SIM using the SUL operation for 5G Data Packets using one of a split bearer or a Secondary Cell Group (SCG) bearer; determining the second SIM is camped on the LTE band that is configured for the SUL; registering the second SIM to the LTE network in the DCNR bit to “dual connectivity with NR supported” mode on the first transceiver; determining whether an LTE-NR ENDC combination is configured for the SUL as per TS 38.101-3 of 3GPP spec and one of the UE or the LTE network supports the SUL on the LTE-NR ENDC combination based on a NR frequency configuration in a RRC Reconfiguration Message; initiating a video call on the second SIM using the second transceiver; and enabling the video call on the second SIM using a SUL operation for 5G video packets using one of the split bearer with the 4G bearer or the SCG bearer. 8. The method of claim 1 , further comprising: determining a default data subscription (DDS) is set on the first SIM; determining the first SIM is camped on an LTE band which is configured for a Single Uplink (SUL) by 3GPP and supported by both the UE and an LTE network; registering the first SIM to the LTE network in a DCNR bit to “dual connectivity with NR supported” mode on the second transceiver; determining an LTE-NR DC band combination is configured for SUL Operation as per 3GPP and supported by both