Common use of Activation of Reserves Clause in Contracts

Activation of Reserves. In this case, the participating LFC Blocks may agree to take the effect of the Cross-Border Activation of Reserves or Imbalance Netting into account for the calculation of FRCE target parameters for the evaluation of the FRCE quality. List of Frequency Control Error Target Parameters Values valid since 7 June 2022. XX XXX, XXXXX 00 00 APG APG 89 169 SHB NOS BiH, HOPS, ELES 69 130 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 83 158 CEPS CEPS 89 169 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 250 474 XXX XXX 000 000 IPTO IPTO 72 136 XXXXX XXXXX 64 122 TERNA TERNA 178 337 SMM CGES, MEPSO, EMS 70 133 TTB TTB 112 213 PSE PSE 132 249 REN REN 75 141 TEL TEL 79 149 SEPS SEPS 55 104 TEIAS TEIAS 187 353 UAMD Ukrenergo 123 233 Past FCRE target parameters values (for analysis and reporting purposes) FRCE target parameters 2017: LFC-Block Belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX 00 00 XXX XXX 77 146 SHB NOS BiH, HOPS, ELES 61 115 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 80 152 CEPS CEPS 87 165 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 243 459 REE REE 000 000 XXX XXX 000 000 IPTO IPTO 00 000 XXXXX XXXXX 00 97 TERNA TERNA 159 300 SMM CGES, MEPSO, EMS 69 131 TTB TTB 101 190 PSE PSE, Western WPS 126 238 REN REN 69 130 TEL TEL 78 147 SEPS SEPS 50 94 TEIAS TEIAS 159 301 Table 2: FRCE target parameters 2017 for each LFC block of Synchronous Area CE FRCE target parameters 2018: LFC-Block Belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX 00 00 XXX XXX 78 148 SHB NOS BiH, HOPS, ELES 64 121 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 77 145 CEPS CEPS 86 163 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 248 468 REE REE 000 000 XXX XXX 000 000 IPTO IPTO 00 000 XXXXX XXXXX 00 98 TERNA TERNA 159 301 SMM CGES, MEPSO, EMS 69 131 TTB TTB 103 194 PSE PSE, Western WPS 125 236 REN REN 73 139 TEL TEL 76 144 SEPS SEPS 49 93 TEIAS TEIAS 162 306 Table 3: FRCE target parameters 2018 for each LFC block of Synchronous Area CE FRCE target parameters 2019: LFC-Block Belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX 25,285 47,817 APG APG 78,234 147,954 SHB NOS BiH, HOPS, ELES 64,015 121,062 Xxxx Xxxx 87,887 166,208 ESO ESO 62,775 118,717 SG SG 76,883 145,398 CEPS CEPS 86,080 162,790 TNG, TTG, AMP, 50HZT, EN, CREOS TNG, TTG, AMP, 50HZT, EN, CREOS 247,631 468,311 REE REE 187,236 000,000 XXX XXX 000,000 427,120 IPTO IPTO 63,851 120,752 XXXXX XXXXX 52,000 98,340 TERNA TERNA 158,993 300,682 SMM CGES, MEPSO, EMS 69,358 131,167 TTB TTB 102,579 193,993 PSE PSE, Western WPS 124,964 236,326 REN REN 73,253 138,533 TEL TEL 76,336 144,363 SEPS SEPS 49,310 93,253 TEIAS TEIAS 161,771 305,934 Table 4: FRCE target parameters 2019 for each LFC block of Synchronous Area CE FRCE target parameters 2020: LFC-Block Belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX 00 00 XXX XXX 87 164 SHB NOS BiH, HOPS, ELES 71 133 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 85 161 CEPS CEPS 91 172 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 256 485 REE REE 000 000 XXX XXX 000 000 IPTO IPTO 60 113 XXXXX XXXXX 63 119 TERNA TERNA 181 341 SMM CGES, MEPSO, EMS 74 140 TTB TTB 112 212 PSE PSE, Western WPS 137 258 REN REN 77 145 TEL TEL 81 154 SEPS SEPS 54 103 TEIAS TEIAS 183 346 Table 5: FRCE target parameters 2020 for each LFC block of Synchronous Area CE FRCE target parameters 2021, from 1 January to 15 June: LFC-Block belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX 00 00 XXX XXX 89 168 SHB NOS BiH, HOPS, ELES 69 131 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 86 163 CEPS CEPS 91 172 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 254 481 XXX XXX 000 000 IPTO IPTO 73 137 XXXXX XXXXX 64 121 TERNA TERNA 181 343 SMM CGES, MEPSO, EMS 74 140 TTB TTB 113 213 PSE PSE, Western WPS 135 256 REN REN 74 141 TEL TEL 80 151 SEPS SEPS 55 104 TEIAS TEIAS 184 348 Table 6: FRCE target parameters 2021 (1 January – 15 June) for each LFC block of Synchronous Area CE FRCE target parameters 2021, from 15 June to 31 December: LFC-Block belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX, XXXXX 36 00 XXX XXX 89 168 SHB NOS BiH, HOPS, ELES 69 131 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 86 163 CEPS CEPS 91 172 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 254 481 XXX XXX 000 000 IPTO IPTO 73 137 XXXXX XXXXX 64 121 TERNA TERNA 181 343 SMM CGES, MEPSO, EMS 69 131 TTB TTB 113 213 PSE PSE, Western WPS 135 256 REN REN 74 141 TEL TEL 80 151 SEPS SEPS 55 104 TEIAS TEIAS 184 348 Table 7: FRCE target parameters 2021 (15 June – 31 December) for each LFC block of Synchronous Area CE FRCE target parameters 2022, from 1 January to 6 June: LFC-Block belonging LFC-Areas Xxxxx 0 Xxxxx 0 XX XXX, XXXXX 00 00 APG APG 89 169 SHB NOS BiH, HOPS, ELES 69 130 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 83 158 CEPS CEPS 89 169 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 250 474 XXX XXX 000 000 IPTO IPTO 72 136 XXXXX XXXXX 64 122 TERNA TERNA 178 337 SMM CGES, MEPSO, EMS 70 133 TTB TTB 112 213 PSE PSE, Western WPS 134 254 REN REN 75 141 TEL TEL 79 149 SEPS SEPS 55 104 TEIAS TEIAS 187 353 Table 8: parameters 2022, from 1 January to 6 June for each LFC block of Synchronous Area CE Methodology to Assess Risk and Evolution of the Risk Exhaustion of FCR according to Article 118(1)(e) SO GL (mandatory) The methodology to assess the risk of exhaustion of FCR is based on a probabilistic approach and takes into account the probability of FCR deployment due to the following operational situations: forced instantaneous outages of generation modules, HVDC interconnectors between two synchronous areas and substations/bus bars which connect two generation units/blocks: modelled by a probability density function, calculated by using a one-minute sequential Monte Carlo simulation. Imbalances due to changes in demand, renewable generation, long lasting Frequency Deviation events or the market-induced Imbalances: modelled by a probability density function calculated using the worst 15-seconds average Frequency Deviation data (15-seconds is equal half time of Full Activation Time [FAT] for FCR) for every minute of the last year. The probability density function of the total amount of FCR needed is the convolution of the previous probability density functions. Therefore, the risk of exhaustion of FCR will be the number of events in 20 years (10.512.000 minutes) in which the FCR need is larger than the FCR dimensioned. This methodology is described in the following paragraphs.

Activation of Reserves. In this case, the participating LFC Blocks may agree to take the effect of the Cross-Border Activation of Reserves or Imbalance Netting into account for the calculation of FRCE target parameters for the evaluation of the FRCE quality. List of Frequency Control Error Target Parameters Values valid since 7 June from 1st January 2022. : XX XXX, XXXXX 00 00 APG APG 89 169 SHB NOS BiH, HOPS, ELES 69 130 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 83 158 CEPS CEPS 89 169 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 250 474 XXX XXX 000 000 IPTO IPTO 72 136 XXXXX XXXXX MAVIR MAVIR 64 122 TERNA TERNA 178 337 SMM CGES, MEPSO, EMS 70 133 TTB TTB 112 213 PSE PSE 132 249 PSE, Western WPS 134 254 REN REN 75 141 TEL TEL 79 149 SEPS SEPS 55 104 TEIAS TEIAS 187 353 UAMD Ukrenergo 123 233 Table 1a: FRCE target parameters 2022 for each LFC block of Synchronous Area CE Past FCRE target parameters values (for analysis and reporting purposes) FRCE target parameters 2017: LFC-Block Belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX 00 00 XXX XXX 77 146 SHB NOS BiH, HOPS, ELES 61 115 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 80 152 CEPS CEPS 87 165 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 243 459 REE REE 000 000 XXX XXX 000 000 IPTO IPTO 00 000 XXXXX XXXXX 00 97 00 TERNA TERNA 159 300 SMM CGES, MEPSO, EMS 69 131 TTB TTB 101 190 PSE PSE, Western WPS 126 238 REN REN 69 130 TEL TEL 78 147 SEPS SEPS 50 94 TEIAS TEIAS 159 301 Table 22b: FRCE target parameters 2017 for each LFC block of Synchronous Area CE FRCE target parameters 2018: LFC-Block Belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX 00 00 XXX XXX 78 148 SHB NOS BiH, HOPS, ELES 64 121 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 77 145 CEPS CEPS 86 163 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 248 468 REE REE 000 000 XXX XXX 000 000 IPTO IPTO 00 000 XXXXX XXXXX 00 98 00 TERNA TERNA 159 301 SMM CGES, MEPSO, EMS 69 131 TTB TTB 103 194 PSE PSE, Western WPS 125 236 REN REN 73 139 TEL TEL 76 144 SEPS SEPS 49 93 TEIAS TEIAS 162 306 Table 33c: FRCE target parameters 2018 for each LFC block of Synchronous Area CE FRCE target parameters 2019: LFC-Block Belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX 25,285 47,817 APG APG 78,234 147,954 SHB NOS BiH, HOPS, ELES 64,015 121,062 Xxxx Xxxx 87,887 166,208 ESO ESO 62,775 118,717 SG SG 76,883 145,398 CEPS CEPS 86,080 162,790 TNG, TTG, AMP, 50HZT, EN, CREOS TNG, TTG, AMP, 50HZT, EN, CREOS 247,631 468,311 REE REE 187,236 000,000 XXX XXX 000,000 427,120 IPTO IPTO 63,851 120,752 XXXXX XXXXX MAVIR MAVIR 52,000 98,340 TERNA TERNA 158,993 300,682 SMM CGES, MEPSO, EMS 69,358 131,167 TTB TTB 102,579 193,993 PSE PSE, Western WPS 124,964 236,326 REN REN 73,253 138,533 TEL TEL 76,336 144,363 SEPS SEPS 49,310 93,253 TEIAS TEIAS 161,771 305,934 Table 44d: FRCE target parameters 2019 for each LFC block of Synchronous Area CE FRCE target parameters 2020: LFC-Block Belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX 00 00 XXX XXX 87 164 SHB NOS BiH, HOPS, ELES 71 133 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 85 161 CEPS CEPS 91 172 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 256 485 REE REE 000 000 XXX XXX 000 000 IPTO IPTO 60 113 XXXXX XXXXX MAVIR MAVIR 63 119 TERNA TERNA 181 341 SMM CGES, MEPSO, EMS 74 140 TTB TTB 112 212 PSE PSE, Western WPS 137 258 REN REN 77 145 TEL TEL 81 154 SEPS SEPS 54 103 TEIAS TEIAS 183 346 Table 55a: FRCE target parameters 2020 for each LFC block of Synchronous Area CE FRCE target parameters 2021, from 1 January to 15 June: LFC-Block belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX 00 00 XXX XXX 89 168 SHB NOS BiH, HOPS, ELES 69 131 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 86 163 CEPS CEPS 91 172 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 254 481 XXX XXX 000 000 IPTO IPTO 73 137 XXXXX XXXXX MAVIR MAVIR 64 121 TERNA TERNA 181 343 SMM CGES, MEPSO, EMS 74 140 TTB TTB 113 213 PSE PSE, Western WPS 135 256 REN REN 74 141 TEL TEL 80 151 SEPS SEPS 55 104 TEIAS TEIAS 184 348 Table 66a: FRCE target parameters 2021 (1 January – 15 June) for each LFC block of Synchronous Area CE FRCE target parameters 2021, from 15 June to 31 December: LFC-Block belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX, XXXXX 36 00 XXX XXX 89 168 SHB NOS BiH, HOPS, ELES 69 131 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 86 163 CEPS CEPS 91 172 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 254 481 XXX XXX 000 000 IPTO IPTO 73 137 XXXXX XXXXX MAVIR MAVIR 64 121 TERNA TERNA 181 343 SMM CGES, MEPSO, EMS 69 131 TTB TTB 113 213 PSE PSE, Western WPS 135 256 REN REN 74 141 TEL TEL 80 151 SEPS SEPS 55 104 TEIAS TEIAS 184 348 Table 77a: FRCE target parameters 2021 (15 June – 31 December) for each LFC block of Synchronous Area CE FRCE target parameters 2022, from 1 January to 6 June: LFC-Block belonging LFC-Areas Xxxxx 0 Xxxxx 0 XX XXX, XXXXX 00 00 APG APG 89 169 SHB NOS BiH, HOPS, ELES 69 130 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 83 158 CEPS CEPS 89 169 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 250 474 XXX XXX 000 000 IPTO IPTO 72 136 XXXXX XXXXX 64 122 TERNA TERNA 178 337 SMM CGES, MEPSO, EMS 70 133 TTB TTB 112 213 PSE PSE, Western WPS 134 254 REN REN 75 141 TEL TEL 79 149 SEPS SEPS 55 104 TEIAS TEIAS 187 353 Table 8: parameters 2022, from 1 January to 6 June for each LFC block of Synchronous Area CE Methodology to Assess Risk and Evolution of the Risk Exhaustion of FCR according to Article 118(1)(e) SO GL (mandatory) The methodology to assess the risk of exhaustion of FCR is based on a probabilistic approach and takes into account the probability of FCR deployment due to the following operational situations: forced instantaneous outages of generation modules, HVDC interconnectors between two synchronous areas and substations/bus bars which connect two generation units/blocks: modelled by a probability density function, calculated by using a one-minute sequential Monte Carlo simulation. Imbalances due to changes in demand, renewable generation, long lasting Frequency Deviation events or the market-induced Imbalances: modelled by a probability density function calculated using the worst 15-seconds average Frequency Deviation data (15-seconds is equal half time of Full Activation Time [FAT] for FCR) for every minute of the last year. The probability density function of the total amount of FCR needed is the convolution of the previous probability density functions. Therefore, the risk of exhaustion of FCR will be the number of events in 20 years (10.512.000 minutes) in which the FCR need is larger than the FCR dimensioned. This methodology is described in the following paragraphs.

Activation of Reserves. In this case, the participating LFC Blocks may agree to take the effect of the Cross-Border Activation of Reserves or Imbalance Netting into account for the calculation of FRCE target parameters for the evaluation of the FRCE quality. List of Frequency Control Error Target Parameters Values valid since 7 June 2022. XX XXXAK OST, XXXXX 00 00 KOSTT 32 60 APG APG 89 169 SHB NOS BiH, HOPS, ELES 69 130 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 96 182 ESO ESO 63 118 SG SG 83 158 CEPS CEPS 89 169 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 250 474 XXX XXX 000 000 RTE RTE 231 436 IPTO IPTO 72 136 XXXXX XXXXX 64 122 TERNA TERNA 178 337 SMM CGES, MEPSO, EMS 70 133 TTB TTB 112 213 PSE PSE 132 249 REN REN 75 141 TEL TEL 79 149 SEPS SEPS 55 104 TEIAS TEIAS 187 353 UAMD Ukrenergo 123 233 Past FCRE target parameters values (for analysis and reporting purposes) FRCE target parameters 2017: LFC-Block Belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX 00 00 XXX XXX Level 1 Level 2 OST OST 23 44 APG APG 77 146 SHB NOS BiH, HOPS, ELES 61 115 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 80 152 ESO ESO 66 125 SG SG 80 152 CEPS CEPS 87 165 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 243 459 REE REE 000 000 XXX XXX 000 000 190 359 RTE RTE 231 437 IPTO IPTO 00 000 64 121 XXXXX XXXXX 00 51 97 TERNA TERNA 159 300 SMM CGES, MEPSO, EMS 69 131 TTB TTB 101 190 PSE PSE, Western WPS 126 238 REN REN 69 130 TEL TEL 78 147 SEPS SEPS 50 94 TEIAS TEIAS 159 301 Table 21: FRCE target parameters 2017 for each LFC block of Synchronous Area CE FRCE target parameters 2018: LFC-Block Belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX 00 00 XXX XXX Level 1 Level 2 OST OST 25 48 APG APG 78 148 SHB NOS BiH, HOPS, ELES 64 121 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 88 166 ESO ESO 63 119 SG SG 77 145 CEPS CEPS 86 163 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 248 468 REE REE 000 000 XXX XXX 000 000 187 354 RTE RTE 226 427 IPTO IPTO 00 000 64 121 XXXXX XXXXX 00 52 98 TERNA TERNA 159 301 SMM CGES, MEPSO, EMS 69 131 TTB TTB 103 194 PSE PSE, Western WPS 125 236 REN REN 73 139 TEL TEL 76 144 SEPS SEPS 49 93 TEIAS TEIAS 162 306 Table 32: FRCE target parameters 2018 for each LFC block of Synchronous Area CE FRCE target parameters 2019: LFC-Block Belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX Level 1 Level 2 OST OST 25,285 47,817 APG APG 78,234 147,954 SHB NOS BiH, HOPS, ELES 64,015 121,062 Xxxx Xxxx 87,887 166,208 ESO ESO 62,775 118,717 SG SG 76,883 145,398 CEPS CEPS 86,080 162,790 TNG, TTG, AMP, 50HZT, EN, CREOS TNG, TTG, AMP, 50HZT, EN, CREOS 247,631 468,311 REE REE 187,236 000,000 XXX XXX 000,000 354,093 RTE RTE 225,851 427,120 IPTO IPTO 63,851 120,752 XXXXX XXXXX 52,000 98,340 TERNA TERNA 158,993 300,682 SMM CGES, MEPSO, EMS 69,358 131,167 TTB TTB 102,579 193,993 PSE PSE, Western WPS 124,964 236,326 REN REN 73,253 138,533 TEL TEL 76,336 144,363 SEPS SEPS 49,310 93,253 TEIAS TEIAS 161,771 305,934 Table 43: FRCE target parameters 2019 for each LFC block of Synchronous Area CE FRCE target parameters 2020: LFC-Block Belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX 00 00 XXX XXX Level 1 Level 2 OST OST 29 55 APG APG 87 164 SHB NOS BiH, HOPS, ELES 71 133 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 93 175 ESO ESO 65 123 SG SG 85 161 CEPS CEPS 91 172 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 256 485 REE REE 000 000 XXX XXX 000 000 205 388 RTE RTE 239 452 IPTO IPTO 60 113 XXXXX XXXXX 63 119 TERNA TERNA 181 341 SMM CGES, MEPSO, EMS 74 140 TTB TTB 112 212 PSE PSE, Western WPS 137 258 REN REN 77 145 TEL TEL 81 154 SEPS SEPS 54 103 TEIAS TEIAS 183 346 Table 54: FRCE target parameters 2020 for each LFC block of Synchronous Area CE FRCE target parameters 2021, from 1 January to 15 June: LFC-Block belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX 00 00 XXX XXX Level 1 Level 2 OST OST 26 49 APG APG 89 168 SHB NOS BiH, HOPS, ELES 69 131 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 98 186 ESO ESO 64 121 SG SG 86 163 CEPS CEPS 91 172 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 254 481 XXX XXX 000 000 RTE RTE 238 450 IPTO IPTO 73 137 XXXXX XXXXX 64 121 TERNA TERNA 181 343 SMM CGES, MEPSO, EMS 74 140 TTB TTB 113 213 PSE PSE, Western WPS 135 256 REN REN 74 141 TEL TEL 80 151 SEPS SEPS 55 104 TEIAS TEIAS 184 348 Table 65: FRCE target parameters 2021 (1 January – 15 June) for each LFC block of Synchronous Area CE FRCE target parameters 2021, from 15 June to 31 December: LFC-Block belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXXLevel 1 Level 2 OST OST, XXXXX KOSTT 36 00 XXX XXX 69 APG APG 89 168 SHB NOS BiH, HOPS, ELES 69 131 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 98 186 ESO ESO 64 121 SG SG 86 163 CEPS CEPS 91 172 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 254 481 XXX XXX 000 000 RTE RTE 238 450 IPTO IPTO 73 137 XXXXX XXXXX 64 121 TERNA TERNA 181 343 SMM CGES, MEPSO, EMS 69 131 TTB TTB 113 213 PSE PSE, Western WPS 135 256 REN REN 74 141 TEL TEL 80 151 SEPS SEPS 55 104 TEIAS TEIAS 184 348 Table 76: FRCE target parameters 2021 (15 June – 31 December) for each LFC block of Synchronous Area CE FRCE target parameters 2022, from 1 January to 6 June: LFC-Block belonging LFC-Areas Xxxxx 0 Xxxxx 0 XX XXXLevel 1 Level 2 AK OST, XXXXX 00 00 KOSTT 32 60 APG APG 89 169 SHB NOS BiH, HOPS, ELES 69 130 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 96 182 ESO ESO 63 118 SG SG 83 158 CEPS CEPS 89 169 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 250 474 XXX XXX 000 000 RTE RTE 231 436 IPTO IPTO 72 136 XXXXX XXXXX 64 122 TERNA TERNA 178 337 SMM CGES, MEPSO, EMS 70 133 TTB TTB 112 213 PSE PSE, Western WPS 134 254 REN REN 75 141 TEL TEL 79 149 SEPS SEPS 55 104 TEIAS TEIAS 187 353 Table 8: parameters 2022, from 1 January to 6 June for each LFC block of Synchronous Area CE Methodology to Assess Risk and Evolution of the Risk Exhaustion of FCR according to Article 118(1)(e) SO GL (mandatory) The methodology to assess the risk of exhaustion of FCR is based on a probabilistic approach and takes into account the probability of FCR deployment due to the following operational situations: forced instantaneous outages of generation modules, HVDC interconnectors between two synchronous areas and substations/bus bars which connect two generation units/blocks: modelled by a probability density function, calculated by using a one-minute sequential Monte Carlo simulation. Imbalances due to changes in demand, renewable generation, long lasting Frequency Deviation events or the market-induced Imbalances: modelled by a probability density function calculated using the worst 15-seconds average Frequency Deviation data (15-seconds is equal half time of Full Activation Time [FAT] for FCR) for every minute of the last year. The probability density function of the total amount of FCR needed is the convolution of the previous probability density functions. Therefore, the risk of exhaustion of FCR will be the number of events in 20 years (10.512.000 minutes) in which the FCR need is larger than the FCR dimensioned. This methodology is described in the following paragraphs.

Activation of Reserves. In this case, the participating LFC Blocks may agree to take the effect of the Cross-Border Activation of Reserves or Imbalance Netting into account for the calculation of FRCE target parameters for the evaluation of the FRCE quality. List of Frequency Control Error Target Parameters Values valid since 7 June 2022from 01.01.2023 until 30.04.2023. XX XXX, XXXXX 00 00 APG APG 89 169 SHB NOS BiH, HOPS, ELES 69 130 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 83 158 CEPS CEPS 89 169 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 250 474 XXX XXX 000 000 IPTO IPTO 72 136 XXXXX XXXXX 64 122 TERNA TERNA 178 337 SMM CGES, MEPSO, EMS 70 133 TTB TTB 112 213 PSE PSE 132 249 REN REN 75 141 TEL TEL 79 149 SEPS SEPS 55 104 TEIAS TEIAS 187 353 UAMD Ukrenergo 123 233 Values valid from 01.05.2023 LFC-Block Belonging LFC-Areas Xxxxx 0 Xxxxx 0 XX XXX, XXXXX 00 00 APG APG 76 145 SHB NOS BiH, HOPS, ELES 61 115 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 71 134 CEPS CEPS 79 149 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 220 416 REE REE 000 000 XXX XXX 000 000 IPTO IPTO 66 124 XXXXX XXXXX 57 107 TERNA TERNA 157 297 SMM CGES, MEPSO, EMS 61 116 TTB TTB 00 000 XXX XXX 000 000 REN REN 64 121 TEL TEL 70 132 SEPS SEPS 49 93 TEIAS TEIAS 165 312 UAMD Ukrenergo 82 156 Past FCRE target parameters values (for analysis and reporting purposes) FRCE target parameters 2017: LFC-Block Belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX 00 00 XXX XXX 77 146 SHB NOS BiH, HOPS, ELES 61 115 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 80 152 CEPS CEPS 87 165 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 243 459 REE REE 000 000 XXX XXX 000 000 IPTO IPTO 00 000 XXXXX XXXXX 00 97 TERNA TERNA 159 300 SMM CGES, MEPSO, EMS 69 131 TTB TTB 101 190 PSE PSE, Western WPS 126 238 REN REN 69 130 TEL TEL 78 147 SEPS SEPS 50 94 TEIAS TEIAS 159 301 Table 2: FRCE target parameters 2017 for each LFC block of Synchronous Area CE FRCE target parameters 2018: LFC-Block Belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX 00 00 XXX XXX 78 148 SHB NOS BiH, HOPS, ELES 64 121 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 77 145 CEPS CEPS 86 163 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 248 468 REE REE 000 000 XXX XXX 000 000 IPTO IPTO 00 000 XXXXX XXXXX 00 98 TERNA TERNA 159 301 SMM CGES, MEPSO, EMS 69 131 TTB TTB 103 194 PSE PSE, Western WPS 125 236 REN REN 73 139 TEL TEL 76 144 SEPS SEPS 49 93 TEIAS TEIAS 162 306 Table 3: FRCE target parameters 2018 for each LFC block of Synchronous Area CE FRCE target parameters 2019: LFC-Block Belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX 25,285 47,817 APG APG 78,234 147,954 SHB NOS BiH, HOPS, ELES 64,015 121,062 Xxxx Xxxx 87,887 166,208 ESO ESO 62,775 118,717 SG SG 76,883 145,398 CEPS CEPS 86,080 162,790 TNG, TTG, AMP, 50HZT, EN, CREOS TNG, TTG, AMP, 50HZT, EN, CREOS 247,631 468,311 REE REE 187,236 000,000 XXX XXX 000,000 427,120 IPTO IPTO 63,851 120,752 XXXXX XXXXX 52,000 98,340 TERNA TERNA 158,993 300,682 SMM CGES, MEPSO, EMS 69,358 131,167 TTB TTB 102,579 193,993 PSE PSE, Western WPS 124,964 236,326 REN REN 73,253 138,533 TEL TEL 76,336 144,363 SEPS SEPS 49,310 93,253 TEIAS TEIAS 161,771 305,934 Table 4: FRCE target parameters 2019 for each LFC block of Synchronous Area CE FRCE target parameters 2020: LFC-Block Belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX 00 00 XXX XXX 87 164 SHB NOS BiH, HOPS, ELES 71 133 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 85 161 CEPS CEPS 91 172 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 256 485 REE REE 000 000 XXX XXX 000 000 IPTO IPTO 60 113 XXXXX XXXXX 63 119 TERNA TERNA 181 341 SMM CGES, MEPSO, EMS 74 140 TTB TTB 112 212 PSE PSE, Western WPS 137 258 REN REN 77 145 TEL TEL 81 154 SEPS SEPS 54 103 TEIAS TEIAS 183 346 Table 5: FRCE target parameters 2020 for each LFC block of Synchronous Area CE FRCE target parameters 2021, from 1 January to 15 June: LFC-Block belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX 00 00 XXX XXX 89 168 SHB NOS BiH, HOPS, ELES 69 131 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 86 163 CEPS CEPS 91 172 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 254 481 XXX XXX 000 000 IPTO IPTO 73 137 XXXXX XXXXX 64 121 TERNA TERNA 181 343 SMM CGES, MEPSO, EMS 74 140 TTB TTB 113 213 PSE PSE, Western WPS 135 256 REN REN 74 141 TEL TEL 80 151 SEPS SEPS 55 104 TEIAS TEIAS 184 348 Table 6: FRCE target parameters 2021 (1 January – 15 June) for each LFC block of Synchronous Area CE FRCE target parameters 2021, from 15 June to 31 December: LFC-Block belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX, XXXXX 36 00 XXX XXX 89 168 SHB NOS BiH, HOPS, ELES 69 131 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 86 163 CEPS CEPS 91 172 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 254 481 XXX XXX 000 000 IPTO IPTO 73 137 XXXXX XXXXX 64 121 TERNA TERNA 181 343 SMM CGES, MEPSO, EMS 69 131 TTB TTB 113 213 PSE PSE, Western WPS 135 256 REN REN 74 141 TEL TEL 80 151 SEPS SEPS 55 104 TEIAS TEIAS 184 348 Table 7: FRCE target parameters 2021 (15 June – 31 December) for each LFC block of Synchronous Area CE FRCE target parameters 2022, from 1 January to 6 June: LFC-Block belonging LFC-Areas Xxxxx 0 Xxxxx 0 XX XXX, XXXXX 00 00 APG APG 89 169 SHB NOS BiH, HOPS, ELES 69 130 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 83 158 CEPS CEPS 89 169 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 250 474 XXX XXX 000 000 IPTO IPTO 72 136 XXXXX XXXXX 64 122 TERNA TERNA 178 337 SMM CGES, MEPSO, EMS 70 133 TTB TTB 112 213 PSE PSE, Western WPS 134 254 REN REN 75 141 TEL TEL 79 149 SEPS SEPS 55 104 TEIAS TEIAS 187 353 Table 8: FRCE target parameters 2022, from 1 January 7 June 2022 to 6 June for each LFC block of Synchronous Area CE 31 December 2022. XX XXX, XXXXX 00 00 APG APG 89 169 SHB NOS BiH, HOPS, ELES 69 130 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 83 158 CEPS CEPS 89 169 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 250 474 XXX XXX 000 000 IPTO IPTO 72 136 XXXXX XXXXX 64 122 TERNA TERNA 178 337 SMM CGES, MEPSO, EMS 70 133 TTB TTB 112 213 PSE PSE 132 249 REN REN 75 141 TEL TEL 79 149 SEPS SEPS 55 104 TEIAS TEIAS 187 353 UAMD Ukrenergo 123 233 Methodology to Assess Risk and Evolution of the Risk Exhaustion of FCR according to Article 118(1)(e) SO GL (mandatory) The methodology to assess the risk of exhaustion of FCR is based on a probabilistic approach and takes into account the probability of FCR deployment due to the following operational situations: forced instantaneous outages of generation modules, HVDC interconnectors between two synchronous areas and substations/bus bars which connect two generation units/blocks: modelled by a probability density function, calculated by using a one-minute sequential Monte Carlo simulation. Imbalances due to changes in demand, renewable generation, long lasting Frequency Deviation events or the market-induced Imbalances: modelled by a probability density function calculated using the worst 15-seconds average Frequency Deviation data (15-seconds is equal half time of Full Activation Time [FAT] for FCR) for every minute of the last year. The probability density function of the total amount of FCR needed is the convolution of the previous probability density functions. Therefore, the risk of exhaustion of FCR will be the number of events in 20 years (10.512.000 minutes) in which the FCR need is larger than the FCR dimensioned. This methodology is described in the following paragraphs.

Activation of Reserves. In this case, the participating LFC Blocks may agree to take the effect of the Cross-Border Activation of Reserves or Imbalance Netting into account for the calculation of FRCE target parameters for the evaluation of the FRCE quality. List of Frequency Control Error Target Parameters (values valid only for 2021) Values valid since 7 from day of approval by RG CE, 15 June 2022. XX 2021 LFC-Block belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX, XXXXX 36 00 00 APG APG XXX XXX 89 169 168 SHB NOS BiH, HOPS, ELES 69 130 131 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 83 158 86 163 CEPS CEPS 89 169 91 172 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 250 474 254 481 XXX XXX 000 000 IPTO IPTO 72 136 XXXXX XXXXX 73 137 MAVIR MAVIR 64 122 121 TERNA TERNA 178 337 181 343 SMM CGES, MEPSO, EMS 70 133 69 131 TTB TTB 112 113 213 PSE PSE 132 249 PSE, Western WPS 135 256 REN REN 75 74 141 TEL TEL 79 149 80 151 SEPS SEPS 55 104 TEIAS TEIAS 187 353 UAMD Ukrenergo 123 233 184 348 Table 1a: FRCE target parameters 2021 for each LFC block of Synchronous Area CE Past FCRE target parameters values (for analysis and reporting purposes) FRCE target parameters 2017: LFC-Block Belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX 00 00 XXX XXX 77 146 SHB NOS BiH, HOPS, ELES 61 115 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 80 152 CEPS CEPS 87 165 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 243 459 REE REE 000 000 XXX XXX 000 000 IPTO IPTO 00 000 XXXXX XXXXX 00 97 00 TERNA TERNA 159 300 SMM CGES, MEPSO, EMS 69 131 TTB TTB 101 190 PSE PSE, Western WPS 126 238 REN REN 69 130 TEL TEL 78 147 SEPS SEPS 50 94 TEIAS TEIAS 159 301 Table 22b: FRCE target parameters 2017 for each LFC block of Synchronous Area CE FRCE target parameters 2018: LFC-Block Belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX 00 00 XXX XXX 78 148 SHB NOS BiH, HOPS, ELES 64 121 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 77 145 CEPS CEPS 86 163 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 248 468 REE REE 000 000 XXX XXX 000 000 IPTO IPTO 00 000 XXXXX XXXXX 00 98 00 TERNA TERNA 159 301 SMM CGES, MEPSO, EMS 69 131 TTB TTB 103 194 PSE PSE, Western WPS 125 236 REN REN 73 139 TEL TEL 76 144 SEPS SEPS 49 93 TEIAS TEIAS 162 306 Table 33c: FRCE target parameters 2018 for each LFC block of Synchronous Area CE FRCE target parameters 2019: LFC-Block Belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX 25,285 47,817 APG APG 78,234 147,954 SHB NOS BiH, HOPS, ELES 64,015 121,062 Xxxx Xxxx 87,887 166,208 ESO ESO 62,775 118,717 SG SG 76,883 145,398 CEPS CEPS 86,080 162,790 TNG, TTG, AMP, 50HZT, EN, CREOS TNG, TTG, AMP, 50HZT, EN, CREOS 247,631 468,311 REE REE 187,236 000,000 XXX XXX 000,000 427,120 IPTO IPTO 63,851 120,752 XXXXX XXXXX MAVIR MAVIR 52,000 98,340 TERNA TERNA 158,993 300,682 SMM CGES, MEPSO, EMS 69,358 131,167 TTB TTB 102,579 193,993 PSE PSE, Western WPS 124,964 236,326 REN REN 73,253 138,533 TEL TEL 76,336 144,363 SEPS SEPS 49,310 93,253 TEIAS TEIAS 161,771 305,934 Table 44d: FRCE target parameters 2019 for each LFC block of Synchronous Area CE FRCE target parameters 2020: LFC-Block Belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX 00 00 XXX XXX 87 164 SHB NOS BiH, HOPS, ELES 71 133 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 85 161 CEPS CEPS 91 172 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 256 485 REE REE 000 000 XXX XXX 000 000 IPTO IPTO 60 113 XXXXX XXXXX MAVIR MAVIR 63 119 TERNA TERNA 181 341 SMM CGES, MEPSO, EMS 74 140 TTB TTB 112 212 PSE PSE, Western WPS 137 258 REN REN 77 145 TEL TEL 81 154 SEPS SEPS 54 103 TEIAS TEIAS 183 346 Table 55a: FRCE target parameters 2020 for each LFC block of Synchronous Area CE FRCE target parameters 20212020, from 1 January to 15 June: LFC-Block belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX 00 00 XXX XXX 89 168 SHB NOS BiH, HOPS, ELES 69 131 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 86 163 CEPS CEPS 91 172 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 254 481 XXX XXX 000 000 IPTO IPTO 73 137 XXXXX XXXXX MAVIR MAVIR 64 121 TERNA TERNA 181 343 SMM CGES, MEPSO, EMS 74 140 TTB TTB 113 213 PSE PSE, Western WPS 135 256 REN REN 74 141 TEL TEL 80 151 SEPS SEPS 55 104 TEIAS TEIAS 184 348 Table 6: FRCE target parameters 2021 (1 January – 15 June) for each LFC block of Synchronous Area CE FRCE target parameters 2021, from 15 June to 31 December: LFC-Block belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX, XXXXX 36 00 XXX XXX 89 168 SHB NOS BiH, HOPS, ELES 69 131 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 86 163 CEPS CEPS 91 172 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 254 481 XXX XXX 000 000 IPTO IPTO 73 137 XXXXX XXXXX 64 121 TERNA TERNA 181 343 SMM CGES, MEPSO, EMS 69 131 TTB TTB 113 213 PSE PSE, Western WPS 135 256 REN REN 74 141 TEL TEL 80 151 SEPS SEPS 55 104 TEIAS TEIAS 184 348 Table 7: FRCE target parameters 2021 (15 June – 31 December) for each LFC block of Synchronous Area CE FRCE target parameters 2022, from 1 January to 6 June: LFC-Block belonging LFC-Areas Xxxxx 0 Xxxxx 0 XX XXX, XXXXX 00 00 APG APG 89 169 SHB NOS BiH, HOPS, ELES 69 130 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 83 158 CEPS CEPS 89 169 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 250 474 XXX XXX 000 000 IPTO IPTO 72 136 XXXXX XXXXX 64 122 TERNA TERNA 178 337 SMM CGES, MEPSO, EMS 70 133 TTB TTB 112 213 PSE PSE, Western WPS 134 254 REN REN 75 141 TEL TEL 79 149 SEPS SEPS 55 104 TEIAS TEIAS 187 353 Table 8: parameters 2022, from 1 January to 6 June for each LFC block of Synchronous Area CE Methodology to Assess Risk and Evolution of the Risk Exhaustion of FCR according to Article 118(1)(e) SO GL (mandatory) The methodology to assess the risk of exhaustion of FCR is based on a probabilistic approach and takes into account the probability of FCR deployment due to the following operational situations: forced instantaneous outages of generation modules, HVDC interconnectors between two synchronous areas and substations/bus bars which connect two generation units/blocks: modelled by a probability density function, calculated by using a one-minute sequential Monte Carlo simulation. Imbalances due to changes in demand, renewable generation, long lasting Frequency Deviation events or the market-induced Imbalances: modelled by a probability density function calculated using the worst 15-seconds average Frequency Deviation data (15-seconds is equal half time of Full Activation Time [FAT] for FCR) for every minute of the last year. The probability density function of the total amount of FCR needed is the convolution of the previous probability density functions. Therefore, the risk of exhaustion of FCR will be the number of events in 20 years (10.512.000 minutes) in which the FCR need is larger than the FCR dimensioned. This methodology is described in the following paragraphs.

Activation of Reserves. In this case, the participating LFC Blocks may agree to take the effect of the Cross-Border Activation of Reserves or Imbalance Netting into account for the calculation of FRCE target parameters for the evaluation of the FRCE quality. List of Frequency Control Error Target Parameters Values valid since 7 June 2022from 01.01.2023 until 30.04.2023. XX XXXAK OST, XXXXX 00 00 KOSTT 32 60 APG APG 89 169 SHB NOS BiH, HOPS, ELES 69 130 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 96 182 ESO ESO 63 118 SG SG 83 158 CEPS CEPS 89 169 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 250 474 XXX XXX 000 000 RTE RTE 231 436 IPTO IPTO 72 136 XXXXX XXXXX 64 122 TERNA TERNA 178 337 SMM CGES, MEPSO, EMS 70 133 TTB TTB 112 213 PSE PSE 132 249 REN REN 75 141 TEL TEL 79 149 SEPS SEPS 55 104 TEIAS TEIAS 187 353 UAMD Ukrenergo 123 233 Values valid from 01.05.2023 LFC-Block Belonging LFC-Areas Level 1 Level 2 AK OST, KOSTT 31 58 APG APG 76 145 SHB NOS BiH, HOPS, ELES 61 115 Xxxx Xxxx 85 160 ESO ESO 56 106 SG SG 71 134 CEPS CEPS 79 149 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 220 416 REE REE 156 295 RTE RTE 205 387 IPTO IPTO 66 124 XXXXX XXXXX 57 107 TERNA TERNA 157 297 SMM CGES, MEPSO, EMS 61 116 TTB TTB 95 179 PSE PSE 119 225 REN REN 64 121 TEL TEL 70 132 SEPS SEPS 49 93 TEIAS TEIAS 165 312 UAMD Ukrenergo 82 156 Past FCRE target parameters values (for analysis and reporting purposes) FRCE target parameters 2017: LFC-Block Belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX 00 00 XXX XXX Level 1 Level 2 OST OST 23 44 APG APG 77 146 SHB NOS BiH, HOPS, ELES 61 115 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 80 152 ESO ESO 66 125 SG SG 80 152 CEPS CEPS 87 165 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 243 459 REE REE 000 000 XXX XXX 000 000 190 359 RTE RTE 231 437 IPTO IPTO 00 000 64 121 XXXXX XXXXX 00 51 97 TERNA TERNA 159 300 SMM CGES, MEPSO, EMS 69 131 TTB TTB 101 190 PSE PSE, Western WPS 126 238 REN REN 69 130 TEL TEL 78 147 SEPS SEPS 50 94 TEIAS TEIAS 159 301 Table 2: FRCE target parameters 2017 for each LFC block of Synchronous Area CE FRCE target parameters 2018: LFC-Block Belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX 00 00 XXX XXX Level 1 Level 2 OST OST 25 48 APG APG 78 148 SHB NOS BiH, HOPS, ELES 64 121 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 88 166 ESO ESO 63 119 SG SG 77 145 CEPS CEPS 86 163 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 248 468 REE REE 000 000 XXX XXX 000 000 187 354 RTE RTE 226 427 IPTO IPTO 00 000 64 121 XXXXX XXXXX 00 52 98 TERNA TERNA 159 301 SMM CGES, MEPSO, EMS 69 131 TTB TTB 103 194 PSE PSE, Western WPS 125 236 REN REN 73 139 TEL TEL 76 144 SEPS SEPS 49 93 TEIAS TEIAS 162 306 Table 3: FRCE target parameters 2018 for each LFC block of Synchronous Area CE FRCE target parameters 2019: LFC-Block Belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX Level 1 Level 2 OST OST 25,285 47,817 APG APG 78,234 147,954 SHB NOS BiH, HOPS, ELES 64,015 121,062 Xxxx Xxxx 87,887 166,208 ESO ESO 62,775 118,717 SG SG 76,883 145,398 CEPS CEPS 86,080 162,790 TNG, TTG, AMP, 50HZT, EN, CREOS TNG, TTG, AMP, 50HZT, EN, CREOS 247,631 468,311 REE REE 187,236 000,000 XXX XXX 000,000 354,093 RTE RTE 225,851 427,120 IPTO IPTO 63,851 120,752 XXXXX XXXXX 52,000 98,340 TERNA TERNA 158,993 300,682 SMM CGES, MEPSO, EMS 69,358 131,167 TTB TTB 102,579 193,993 PSE PSE, Western WPS 124,964 236,326 REN REN 73,253 138,533 TEL TEL 76,336 144,363 SEPS SEPS 49,310 93,253 TEIAS TEIAS 161,771 305,934 Table 4: FRCE target parameters 2019 for each LFC block of Synchronous Area CE FRCE target parameters 2020: LFC-Block Belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX 00 00 XXX XXX Level 1 Level 2 OST OST 29 55 APG APG 87 164 SHB NOS BiH, HOPS, ELES 71 133 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 93 175 ESO ESO 65 123 SG SG 85 161 CEPS CEPS 91 172 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 256 485 REE REE 000 000 XXX XXX 000 000 205 388 RTE RTE 239 452 IPTO IPTO 60 113 XXXXX XXXXX 63 119 TERNA TERNA 181 341 SMM CGES, MEPSO, EMS 74 140 TTB TTB 112 212 PSE PSE, Western WPS 137 258 REN REN 77 145 TEL TEL 81 154 SEPS SEPS 54 103 TEIAS TEIAS 183 346 Table 5: FRCE target parameters 2020 for each LFC block of Synchronous Area CE FRCE target parameters 2021, from 1 January to 15 June: LFC-Block belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXX 00 00 XXX XXX Level 1 Level 2 OST OST 26 49 APG APG 89 168 SHB NOS BiH, HOPS, ELES 69 131 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 98 186 ESO ESO 64 121 SG SG 86 163 CEPS CEPS 91 172 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 254 481 XXX XXX 000 000 RTE RTE 238 450 IPTO IPTO 73 137 XXXXX XXXXX 64 121 TERNA TERNA 181 343 SMM CGES, MEPSO, EMS 74 140 TTB TTB 113 213 PSE PSE, Western WPS 135 256 REN REN 74 141 TEL TEL 80 151 SEPS SEPS 55 104 TEIAS TEIAS 184 348 Table 6: FRCE target parameters 2021 (1 January – 15 June) for each LFC block of Synchronous Area CE FRCE target parameters 2021, from 15 June to 31 December: LFC-Block belonging LFC-Areas Xxxxx 0 Xxxxx 0 XXX XXXLevel 1 Level 2 OST OST, XXXXX KOSTT 36 00 XXX XXX 69 APG APG 89 168 SHB NOS BiH, HOPS, ELES 69 131 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 98 186 ESO ESO 64 121 SG SG 86 163 CEPS CEPS 91 172 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 254 481 XXX XXX 000 000 RTE RTE 238 450 IPTO IPTO 73 137 XXXXX XXXXX 64 121 TERNA TERNA 181 343 SMM CGES, MEPSO, EMS 69 131 TTB TTB 113 213 PSE PSE, Western WPS 135 256 REN REN 74 141 TEL TEL 80 151 SEPS SEPS 55 104 TEIAS TEIAS 184 348 Table 7: FRCE target parameters 2021 (15 June – 31 December) for each LFC block of Synchronous Area CE FRCE target parameters 2022, from 1 January to 6 June: LFC-Block belonging LFC-Areas Xxxxx 0 Xxxxx 0 XX XXXLevel 1 Level 2 AK OST, XXXXX 00 00 KOSTT 32 60 APG APG 89 169 SHB NOS BiH, HOPS, ELES 69 130 Xxxx Xxxx 00 000 XXX XXX 00 000 XX XX 96 182 ESO ESO 63 118 SG SG 83 158 CEPS CEPS 89 169 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 250 474 XXX XXX 000 000 RTE RTE 231 436 IPTO IPTO 72 136 XXXXX XXXXX 64 122 TERNA TERNA 178 337 SMM CGES, MEPSO, EMS 70 133 TTB TTB 112 213 PSE PSE, Western WPS 134 254 REN REN 75 141 TEL TEL 79 149 SEPS SEPS 55 104 TEIAS TEIAS 187 353 Table 8: FRCE target parameters 2022, from 1 January 7 June 2022 to 6 June for each LFC block of Synchronous Area CE 31 December 2022. AK OST, KOSTT 32 60 APG APG 89 169 SHB NOS BiH, HOPS, ELES 69 130 Xxxx Xxxx 96 182 ESO ESO 63 118 SG SG 83 158 CEPS CEPS 89 169 TNG+TTG+AMP+50HZT+EN+CREOS TNG+TTG+AMP+50HZT+EN+CREOS 250 474 RTE RTE 231 436 IPTO IPTO 72 136 XXXXX XXXXX 64 122 TERNA TERNA 178 337 SMM CGES, MEPSO, EMS 70 133 TTB TTB 112 213 PSE PSE 132 249 REN REN 75 141 TEL TEL 79 149 SEPS SEPS 55 104 TEIAS TEIAS 187 353 UAMD Ukrenergo 123 233 Methodology to Assess Risk and Evolution of the Risk Exhaustion of FCR according to Article 118(1)(e) SO GL (mandatory) The methodology to assess the risk of exhaustion of FCR is based on a probabilistic approach and takes into account the probability of FCR deployment due to the following operational situations: forced instantaneous outages of generation modules, HVDC interconnectors between two synchronous areas and substations/bus bars which connect two generation units/blocks: modelled by a probability density function, calculated by using a one-minute sequential Monte Carlo simulation. Imbalances due to changes in demand, renewable generation, long lasting Frequency Deviation events or the market-induced Imbalances: modelled by a probability density function calculated using the worst 15-seconds average Frequency Deviation data (15-seconds is equal half time of Full Activation Time [FAT] for FCR) for every minute of the last year. The probability density function of the total amount of FCR needed is the convolution of the previous probability density functions. Therefore, the risk of exhaustion of FCR will be the number of events in 20 years (10.512.000 minutes) in which the FCR need is larger than the FCR dimensioned. This methodology is described in the following paragraphs.