Method and test device for performing packet error rate measurement

The invention claimed is: 1. A method for performing packet error rate (PER) measurement on a Bluetooth Low Energy (BLE) channel, the method comprising: establishing an isochronous BLE connection between a test device and an implementation under test (IUT); sending, by the test device, test data packets from the test device to the IUT; receiving, by the test device, response data packets from the IUT, wherein a separate response data packet is sent from the IUT for each test data packet received by the IUT; and measuring a PER on the established isochronous BLE connection between the test device and the IUT, wherein the test data packets and the response data packets are transmitted in time slots of a predetermined time grid, and there is one or more empty data packets between a transmission of the a test data packet and a corresponding response data packet. 2. The method of claim 1 , wherein establishing the isochronous BLE connection between the test device and the IUT comprises establishing an Asynchronous Connection-Less (ACL) connection between the test device and the IUT and subsequently establishing a Connected Isochronous Stream between the test device and the IUT. 3. The method of claim 1 , wherein measuring the PER includes: calculating the PER based on a number of test data packets sent by the test device and a number of response data packet received by the test device. 4. The method of claim 3 , wherein calculating the PER comprises calculating a ratio between a number of test packets transmitted by the test device and a number of response data packets related to the test packets transmitted by the test device. 5. The method of claim 3 , wherein the response data packets comprise an acknowledgment (ACK) or a negative-acknowledgment (NACK), sent by the IUT in response to a test data packet received from the test device. 6. The method of claim 1 , wherein the test data packets are data packets of a Connected Isochronous Stream (CIS). 7. A test device for performing packet error rate (PER) measurement on a Bluetooth Low Energy (BLE) channel, the test device comprising: a transceiver for establishing an isochronous BLE connection between the test device and an implementation under test (IUT); and an analyzer coupled to the transceiver to control the transceiver and exchange digital data with the transceiver for measuring a PER on the established isochronous BLE connection between the test device and the IUT, wherein the transceiver is configured to send test data packets from the test device to the IUT, receive response data packets from the IUT generated according to digital data received from the analyzer, wherein a separate response data packet is sent from the IUT for each test data packet received by the IUT, wherein the test data packets and the response data packets are transmitted in time slots of a predetermined time grid, and there is one or more empty data packets between a transmission of the a test data packet and a corresponding response data packet, and wherein the analyzer is configured to calculate, based on the digital data exchanged with the transceiver, the PER based on a number of test data packets sent by the test device and a number of response data packet received by the test device. 8. The test device of claim 7 , wherein the transceiver is configured to establish an Asynchronous Connection-Less (ACL) connection between the test device and the IUT between the test device and the IUT, and subsequently establish a Connected Isochronous Stream between the test device and the JUT. 9. The test device of claim 7 , wherein the received response data packets comprise an acknowledgment (ACK) or a negative-acknowledgment (NACK), sent by the IUT in response to a test data packet received from the test device. 10. The test device of claim 7 , wherein the analyzer is configured to calculate a ratio between a number of test packets transmitted by the test device and a number of response data packets related to the test packets transmitted by the test device. 11. The test device of claim 7 , wherein the test data packets are data packets of a Connected Isochronous Stream (CIS).