LAMPIRAN 7.1. Analisa Data Hasil Uji Pendahuluan HCN Bahan Baku. Oneway. Post Hoc Tests Homogeneous Subsets. Tests of Normality

LAMPIRAN 7.1. Analisa Data 7.1.1. Hasil Uji Pendahuluan HCN Bahan Baku HCN Biji Sari Tepung Tempe Tests of Normality Kolmogorov -Smirnov a *. This is a lower bound of the true significance. a. Lillief ors Significance Correction Shapiro-Wilk Statistic df Sig. Statistic df Sig..254 6.200*.858 6.181.162 6.200*.988 6.984.202 6.200*.941 6.664 Oneway ANOVA HCN Between Groups Within Groups Total Sum of Squares df Mean Square F Sig. 6290.370 2 3145.185 436.673.000 108.039 15 7.203 6398.410 17 Post Hoc Tests Homogeneous Subsets Duncan a Tepung Tempe Sari Biji Sig. HCN Subset for alpha =.05 N 1 2 3 6.7536 6 20.6219 6 46.4163 1.000 1.000 1.000 Means for groups in homogeneous subsets are display ed. a. Uses Harmonic Mean Sample Size = 6.000. 84

85 7.1.2. Hasil Uji Pendahuluan Aktivitas Antioksidan Bahan Baku Aktiv itasantioksidan Biji Sari TepungTempe *. This is a lower bound of the true significance. a. Lillief ors Significance Correction Tests of Normality Kolmogorov -Smirnov a Shapiro-Wilk Statistic df Sig. Statistic df Sig..225 6.200*.834 6.117.221 6.200*.914 6.465.293 6.117.886 6.295 Oneway ANOVA Aktiv itasantioksidan Sum of Squares df Mean Square F Sig. Between Groups 438.291 2 219.146 91.626.000 Within Groups 35.876 15 2.392 Total 474.167 17 Post Hoc Tests Homogeneous Subsets Duncan a Sari Biji TepungTempe Sig. AktivitasAntioksidan Subset for alpha =.05 N 1 2 3 6 30.0517 6 36.3533 6 42.1350 1.000 1.000 1.000 Means for groups in homogeneous subsets are display ed. a. Uses Harmonic Mean Sample Size = 6.000.

86 7.1.3. Hasil Pengukuran Fisik Es Krim Koro Gude Ov errun Viskositas_Bef ore Viskositas_Af ter Tekstur Warna Timetomelt TT10% TT20% TT30% TT40% TT50% TT10% TT20% TT30% TT40% TT50% TT10% TT20% TT30% TT40% TT50% TT10% TT20% TT30% TT40% TT50% TT10% TT20% TT30% TT40% TT50% TT10% TT20% TT30% TT40% TT50% *. This is a lower bound of the true significance. a. Lillief ors Significance Correction Tests of Normality Kolmogorov-Smirnov a Shapiro-Wilk Statistic df Sig. Statistic df Sig..167 6.200*.982 6.960.319 6.056.683 6.004.293 6.118.822 6.091.293 6.118.822 6.091.302 6.094.775 6.035.293 6.118.916 6.476.312 6.069.760 6.025.288 6.130.831 6.109.135 6.200*.973 6.912.205 6.200*.914 6.465.251 6.200*.869 6.223.198 6.200*.894 6.340.317 6.059.723 6.011.188 6.200*.947 6.715.152 6.200*.974 6.920.278 6.163.935 6.616.126 6.200*.985 6.974.175 6.200*.962 6.836.253 6.200*.870 6.227.224 6.200*.925 6.541.218 6.200*.909 6.428.127 6.200*.977 6.935.192 6.200*.973 6.910.188 6.200*.949 6.736.222 6.200*.878 6.261.237 6.200*.894 6.340.285 6.139.793 6.050.261 6.200*.943 6.684.307 6.080.772 6.033.185 6.200*.910 6.437.277 6.168.773 6.033.286 6.136.755 6.022.293 6.117.915 6.473.199 6.200*.903 6.393.312 6.069.767 6.029.276 6.170.801 6.060

87 Oneway ANOVA Ov errun Viskositas_Before Viskositas_Af ter Tekstur Warna Timetomelt Post Hoc Tests Homogeneous Subsets Between Groups Within Groups Total Between Groups Within Groups Total Between Groups Within Groups Total Between Groups Within Groups Total Between Groups Within Groups Total Between Groups Within Groups Total Sum of Squares df Mean Square F Sig. 2728.792 5 545.758 116.991.000 139.949 30 4.665 2868.742 35 8389.189 5 1677.838 1656.237.000 30.391 30 1.013 8419.581 35 8129.168 5 1625.834 1803.406.000 27.046 30.902 8156.214 35 15.517 5 3.103 229.305.000.406 30.014 15.923 35 2707.308 5 541.462 699.779.000 23.213 30.774 2730.521 35 17105.333 5 3421.067 1374.536.000 74.667 30 2.489 17180.000 35 Duncan a TepungTempe50% TepungTempe40% TepungTempe30% TepungTempe20% TepungTempe10% Sig. Overrun N 1 2 3 4 5 6 6 61.1100 6 67.4083 6 73.3333 Subset f or alpha =.05 6 76.2983 Means for groups in homogeneous subsets are display ed. a. Uses Harmonic Mean Sample Size = 6.000. 6 81.8500 6 87.4083 1.000 1.000 1.000 1.000 1.000 1.000

88 Duncan a TepungTempe10% TepungTempe20% TepungTempe30% TepungTempe40% TepungTempe50% Sig. ViskositasBefore N 1 2 3 4 5 6 6 17.9583 6 31.0383 6 44.2450 6 51.2467 Means for groups in homogeneous subsets are display ed. a. Uses Harmonic Mean Sample Size = 6.000. Duncan a TepungTempe10% TepungTempe20% TepungTempe30% TepungTempe40% TepungTempe50% Sig. Subset f or alpha =.05 6 57.1667 6 62.0583 1.000 1.000 1.000 1.000 1.000 1.000 ViskositasAfter N 1 2 3 4 5 6 6 9.6800 6 15.0250 6 32.2300 6 40.2967 Means for groups in homogeneous subsets are display ed. a. Uses Harmonic Mean Sample Size = 6.000. Subset f or alpha =.05 6 43.3417 6 51.2617 1.000 1.000 1.000 1.000 1.000 1.000 Duncan a TepungTempe10% TepungTempe20% TepungTempe30% TepungTempe40% TepungTempe50% Sig. Hardness N 1 2 3 4 5 6 6 1.7249 6 2.1358 6 2.5308 6 2.7089 Means for groups in homogeneous subsets are display ed. a. Uses Harmonic Mean Sample Size = 6.000. Subset f or alpha =.05 6 3.1845 6 3.7293 1.000 1.000 1.000 1.000 1.000 1.000

89 Duncan a TT10% TT20% TT30% TT40% TT50% Sig. Timetomelt N 1 2 3 4 5 6 6 64.1667 6 76.1667 6 84.6667 6 92.1667 6 116.3333 6 126.5000 7.1.4. Pengukuran Warna Es Krim Koro Gude 1.000 1.000 1.000 1.000 1.000 1.000 Means for groups in homogeneous subsets are display ed. a. Uses Harmonic Mean Sample Size = 6.000. Subset f or alpha =.05 Tests of Normality Kolmogorov-Smirnov a Shapiro-Wilk Statistic df Sig. Statistic df Sig. L.214 6.200 *.924 6.538 TepungTempe10%.307 6.080.773 6.033 TepungTempe20%.275 6.176.930 6.580 TepungTempe30%.262 6.200 *.810 6.073 TepungTempe40%.232 6.200 *.910 6.437 TepungTempe50%.244 6.200 *.885 6.294 a.204 6.200 *.902 6.389 TepungTempe10%.308 6.077.897 6.356 TepungTempe20%.190 6.200 *.958 6.805 TepungTempe30%.259 6.200 *.830 6.107 TepungTempe40%.323 6.050.812 6.075 TepungTempe50%.257 6.200 *.867 6.215 b.190 6.200 *.962 6.836 TepungTempe10%.211 6.200 *.938 6.640 TepungTempe20%.310 6.074.837 6.123 TepungTempe30%.242 6.200 *.945 6.697 TepungTempe40%.168 6.200 *.975 6.927 TepungTempe50%.128 6.200 *.993 6.995 a. Lilliefors Significance Correction *. This is a lower bound of the true significance.

90 Oneway ANOVA Sum of Squares df Mean Square F Sig. L Between Groups 2641.772 5 528.354 676.009.000 Within Groups 23.447 30.782 Total 2665.220 35 a Between Groups 100.585 5 20.117 425.189.000 Within Groups 1.419 30.047 Total 102.005 35 b Between Groups 94.199 5 18.840 148.395.000 Within Groups 3.809 30.127 Total 98.008 35 Post Hoc Tests Homogeneous Subsets Duncan 6 62.4800 TepungTempe10% 6 62.6100 N TepungTempe20% 6 67.2900 L Subset for alpha = 0.05 1 2 3 4 5 TepungTempe30% 6 68.8850 TepungTempe40% 6 72.1433 TepungTempe50% 6 87.7817 Sig..801 1.000 1.000 1.000 1.000 Means for groups in homogeneous subsets are displayed. a Duncan Subset for alpha = 0.05 N 1 2 3 4 6-1.8850 TepungTempe10% 6 1.7650 TepungTempe50% 6 2.5033 TepungTempe20% 6 2.5867 TepungTempe40% 6 2.7050 2.7050 TepungTempe30% 6 2.9217 Sig. 1.000 1.000.139.095 Means for groups in homogeneous subsets are displayed.

91 b Duncan Subset for alpha = 0.05 N 1 2 3 4 TepungTempe50% 6 6.4167 TepungTempe30% 6 6.4217 TepungTempe40% 6 6.4367 TepungTempe10% 6 7.7150 TepungTempe20% 6 8.3417 6 10.9267 Sig..928 1.000 1.000 1.000 Means for groups in homogeneous subsets are displayed.

92 7.1.5. Analisa Kimia Es Krim Koro Gude Tests of Normality Kolmogorov-Smirnov a Shapiro-Wilk Statistic df Sig. Statistic df Sig. K.Air.311 6.071.820 6.089 TepungTempe10%.182 6.200 *.931 6.589 TepungTempe20%.283 6.145.879 6.263 TepungTempe30%.171 6.200 *.913 6.459 TepungTempe40%.237 6.200 *.953 6.764 TepungTempe50%.170 6.200 *.936 6.626 K.Abu.319 6.056.683 6.004 TepungTempe10%.202 6.200 *.853 6.167 TepungTempe20%.252 6.200 *.916 6.480 TepungTempe30%.254 6.200 *.866 6.212 TepungTempe40%.190 6.200 *.882 6.277 TepungTempe50%.293 6.117.822 6.091 Protein.195 6.200 *.910 6.440 TepungTempe10%.182 6.200 *.950 6.742 TepungTempe20%.191 6.200 *.919 6.495 TepungTempe30%.258 6.200 *.907 6.416 TepungTempe40%.188 6.200 *.952 6.760 TepungTempe50%.207 6.200 *.950 6.737 Lemak.280 6.155.809 6.070 TepungTempe10%.134 6.200 *.974 6.918 TepungTempe20%.292 6.120.915 6.472 TepungTempe30%.191 6.200 *.917 6.482 TepungTempe40%.160 6.200 *.952 6.757 TepungTempe50%.258 6.200 *.885 6.294 Serat_Kasar.175 6.200 *.923 6.530 TepungTempe10%.242 6.200 *.882 6.278 TepungTempe20%.216 6.200 *.936 6.630 TepungTempe30%.167 6.200 *.989 6.987 TepungTempe40%.289 6.129.870 6.226 TepungTempe50%.212 6.200 *.932 6.594 a. Lilliefors Significance Correction *. This is a lower bound of the true significance.

93 ANOVA Sum of Squares df Mean Square F Sig. K.Air Between Groups 65.982 5 13.196 55.902.000 Within Groups 7.082 30.236 Total 73.063 35 K.Abu Between Groups.016 5.003.732.605 Within Groups.127 30.004 Total.143 35 Protein Between Groups 14.956 5 2.991 62.597.000 Within Groups 1.434 30.048 Total 16.389 35 Lemak Between Groups 49.767 5 9.953 246.658.000 Within Groups 1.211 30.040 Total 50.978 35 Serat_Kasar Between Groups 173.765 5 34.753 21.140.000 Within Groups 49.318 30 1.644 Total 223.083 35 Post Hoc Tests Homogeneous Subsets K.Air Duncan Subset for alpha = 0.05 N 1 2 3 4 5 TepungTempe50% 6 60.8417 TepungTempe40% 6 61.7850 TepungTempe30% 6 61.7950 TepungTempe20% 6 62.6483 TepungTempe10% 6 63.6067 6 64.9617 Sig. 1.000.972 1.000 1.000 1.000 Means for groups in homogeneous subsets are displayed.

94 K.Abu Duncan N Subset for alpha = 0.05 TepungTempe10% 6.2000 6.2250 TepungTempe20% 6.2333 TepungTempe30% 6.2417 TepungTempe40% 6.2500 TepungTempe50% 6.2667 Sig..129 Means for groups in homogeneous subsets are displayed. 1 Duncan Protein N Subset for alpha = 0.05 1 2 3 4 5 6 5.0200 TepungTempe10% 6 5.2667 TepungTempe20% 6 5.5917 TepungTempe30% 6 5.9083 TepungTempe40% 6 6.3117 TepungTempe50% 6 6.9367 Sig..060 1.000 1.000 1.000 1.000 Means for groups in homogeneous subsets are displayed. Duncan Lemak Subset for alpha = 0.05 N 1 2 3 4 TepungTempe10% 6 5.4650 TepungTempe20% 6 5.5200 5.5200 TepungTempe30% 6 5.6383 5.6383 5.6383 TepungTempe40% 6 5.7517 5.7517 TepungTempe50% 6 5.8067 6 8.7750 Sig..168.067.180 1.000 Means for groups in homogeneous subsets are displayed.

95 Serat_Kasar Duncan Subset for alpha = 0.05 N 1 2 3 4 6 7.4667 TepungTempe10% 6 11.4833 TepungTempe20% 6 12.3167 12.3167 TepungTempe30% 6 13.3000 13.3000 TepungTempe40% 6 13.4667 13.4667 TepungTempe50% 6 14.0500 Sig. 1.000.269.152.348 Means for groups in homogeneous subsets are displayed. 7.1.6. Hasil Analisa Total Padatan Es Krim Koro Gude Total_padatan TepungTempe10% TepungTempe20% TepungTempe30% TepungTempe40% TepungTempe50% *. This is a lower bound of the true significance. a. Lillief ors Significance Correction Tests of Normality Kolmogorov-Smirnov a Shapiro-Wilk Statistic df Sig. Statistic df Sig..311 6.071.820 6.089.182 6.200*.931 6.589.283 6.145.879 6.263.171 6.200*.913 6.459.237 6.200*.953 6.764.170 6.200*.936 6.626 ANOVA Total_padatan Between Groups Within Groups Total Sum of Squares df Mean Square F Sig. 65.982 5 13.196 55.902.000 7.082 30.236 73.063 35

96 Post Hoc Tests Homogeneous Subsets Duncan a TepungTempe10% TepungTempe20% TepungTempe30% TepungTempe40% TepungTempe50% Sig. Total_padatan N 1 2 3 4 5 6 35.0383 6 36.3933 6 37.3517 6 38.2050 6 38.2150 Means for groups in homogeneous subsets are display ed. a. Uses Harmonic Mean Sample Size = 6.000. Subset f or alpha =.05 6 39.1583 1.000 1.000 1.000.972 1.000 7.1.7. Hasil Analisa Aktivitas Antioksidan Tests of Normality Kolmogorov-Smirnov a Shapiro-Wilk Statistic df Sig. Statistic df Sig. Antioksidan_EsKrim.292 6.119.889 6.311 TepungTempe10%.222 6.200 *.882 6.278 TepungTempe20%.286 6.135.788 6.046 TepungTempe30%.309 6.075.755 6.022 TepungTempe40%.261 6.200 *.896 6.352 TepungTempe50%.269 6.198.861 6.193 a. Lilliefors Significance Correction *. This is a lower bound of the true significance.

97 Oneway ANOVA Antioksidan_EsKrim Sum of Squares df Mean Square F Sig. Between Groups 6862.658 5 1372.532 1.166E3.000 Within Groups 35.306 30 1.177 Total 6897.964 35 Post Hoc Tests Homogeneous Subsets Antioksidan_EsKrim Duncan Subset for alpha = 0.05 N 1 2 3 4 5 6 7.1133 TepungTempe10% 6 40.4933 TepungTempe20% 6 43.2300 TepungTempe30% 6 44.2067 44.2067 TepungTempe40% 6 45.2433 45.2433 TepungTempe50% 6 46.1033 Sig. 1.000 1.000.129.108.180 Means for groups in homogeneous subsets are displayed.

98 7.1.8. Korelasi Antar Parameter Pengujian Correlations Overrun Hardness ViskoSblm ViskoSetelah TimeToMelt Padatan Protein Lemak Overrun Pearson Correlation 1.950 **.665 **.744 ** -.531 **.582 **.765 **.032 Sig. (2-tailed).000.000.000.001.000.000.854 N 36 36 36 36 36 36 36 36 Hardness Pearson Correlation.950 ** 1.591 **.666 ** -.504 **.534 **.744 **.124 Sig. (2-tailed).000.000.000.002.001.000.469 N 36 36 36 36 36 36 36 36 ViskoSblm Pearson Correlation.665 **.591 ** 1.984 **.106.942 **.896 ** -.685 ** Sig. (2-tailed).000.000.000.538.000.000.000 N 36 36 36 36 36 36 36 36 ViskoSetelah Pearson Correlation.744 **.666 **.984 ** 1.002.932 **.905 ** -.583 ** Sig. (2-tailed).000.000.000.991.000.000.000 N 36 36 36 36 36 36 36 36 TimeToMelt Pearson Correlation -.531 ** -.504 **.106.002 1.111 -.050 -.645 ** Sig. (2-tailed).001.002.538.991.518.771.000 N 36 36 36 36 36 36 36 36 Padatan Pearson Correlation.582 **.534 **.942 **.932 **.111 1.885 ** -.674 ** Sig. (2-tailed).000.001.000.000.518.000.000 N 36 36 36 36 36 36 36 36 Protein Pearson Correlation.765 **.744 **.896 **.905 ** -.050.885 ** 1 -.458 ** Sig. (2-tailed).000.000.000.000.771.000.005 N 36 36 36 36 36 36 36 36 Lemak Pearson Correlation.032.124 -.685 ** -.583 ** -.645 ** -.674 ** -.458 ** 1 Sig. (2-tailed).854.469.000.000.000.000.005 N 36 36 36 36 36 36 36 36 **. Correlation is significant at the 0.01 level (2-tailed).

99 7.2. Worksheet Uji Sensori WORKSHEET UJI RANKING HEDONIK ES KRIM KACANG KORO GUDE Tanggal Uji : Jenis : Es Krim Kacang Koro Gude Identifikasi Es krim berbahan sari kedelai dan tepung tempe koro gude 0% Es krim berbahan sari koro dan tepung tempe koro gude 10% Es krim berbahan sari koro dan tepung tempe koro gude 20% Es krim berbahan sari koro dan tepung tempe koro gude 30% Es krim berbahan sari koro dan tepung tempe koro gude 40% Es krim berbahan sari koro dan tepung tempe koro gude 50% Kode A B C D E F Kode Kombinasi Urutan Penyajian BEADCF = 1 EBADCF = 6 ABEDCF = 11 BAEDCF = 2 EABDFC = 7 ABDECF = 12 BADECF = 3 EBDACF = 8 AEDBCF = 13 BADEFC = 4 EBDAFC = 9 AEDBFC = 14 BAEDFC = 5 EABDCF = 10 ADEBCF = 15 DBEACF = 16 CBEADF = 21 FBEADC = 26 DBAECF = 17 CBAEDF = 22 FBAEDC = 27 DEABCF = 18 CEABDF = 23 FEABDC = 28 DEABFC = 19 CEABFD = 24 FEABCD = 29 DAEBCF = 20 CAEBDF = 25 FAEBDC = 30

100 Penyajian : Booth Panelis Urutan penyajian Kode sampel I 1 335 381 415 882 199 894 II 2 662 982 641 216 113 333 III 3 875 543 786 393 941 612 IV 4 282 743 376 375 728 933 V 5 617 835 354 187 869 375 I 6 193 274 826 864 651 487 II 7 165 635 364 912 741 414 III 8 615 379 941 776 891 259 IV 9 587 287 837 988 476 129 V 10 384 923 791 551 938 127 I 11 224 334 119 233 862 286 II 12 615 139 744 187 572 736 III 13 283 965 634 117 698 257 IV 14 462 572 464 963 168 128 V 15 328 313 112 448 363 847 I 16 474 957 695 512 478 316 II 17 536 451 228 615 214 969 III 18 333 941 466 585 841 692 IV 19 927 361 278 821 786 314 V 20 345 874 375 829 437 549 I 21 792 267 376 373 889 949 II 22 874 512 499 871 387 559 III 23 926 633 437 638 658 526 IV 24 918 968 383 477 126 116 V 25 481 349 755 776 138 218 I 26 464 339 847 468 848 797 II 27 191 818 122 643 135 621 III 28 132 773 771 251 743 339 IV 29 218 765 481 916 827 143 V 30 573 723 439 581 165 377 Rekap kode sampel : A 415 982 543 743 835 826 364 776 988 923 224 615 283 462 328 B 335 662 875 282 617 274 635 379 287 791 334 139 117 963 448 C 199 113 941 933 375 651 414 891 129 938 862 572 698 128 363 D 882 216 786 376 187 864 912 941 837 551 233 744 634 464 313 E 381 641 393 375 354 193 165 615 387 384 119 187 965 572 112 F 894 333 612 728 869 487 741 259 476 127 286 736 257 168 847 A 512 228 466 278 874 373 499 437 383 349 468 122 771 481 723 B 957 451 585 821 829 267 512 638 477 776 339 818 251 916 581 C 478 214 841 314 437 792 874 926 918 481 797 621 743 827 377 D 474 536 333 927 345 889 387 658 116 138 848 135 339 143 165 E 695 615 941 361 375 376 871 633 968 755 847 643 773 765 439 F 316 969 692 786 549 949 559 526 126 218 464 191 132 218 573

101 7.3. Lembar Uji Sensoris UJI RANKING HEDONIK Nama : Tanggal : 24 Maret 2014 Produk : Es Krim Kacang Koro Gude Atribut : Tekstur Instruksi : Sebelum mencicipi setiap sampel, berkumurlah dengan air putih terlebih dahulu. Di hadapan Anda terdapat 6 sampel es krim kacang koro gude. Amati masing-masing sampel secara berurutan dari kiri ke kanan. Rasakan tekstur masing-masing sampel secara berurutan dari kiri ke kanan. Berilah skor tekstur pada sampel dari yang paling Anda sukai (=6) hingga yang paling tidak Anda sukai (=1). Kode Ranking (Jangan ada yang double)

102 UJI RANKING HEDONIK Nama : Tanggal : 24 Maret 2014 Produk : Es Krim Kacang Koro Gude Atribut : Rasa Instruksi : Sebelum mencicipi setiap sampel, berkumurlah dengan air putih terlebih dahulu. Di hadapan Anda terdapat 6 sampel es krim kacang koro gude. Amati masing-masing sampel secara berurutan dari kiri ke kanan. Cicipilah rasa masing-masing sampel secara berurutan dari kiri ke kanan. Berilah skor rasa pada sampel dari yang paling Anda sukai (=6) hingga yang paling tidak Anda sukai (=1). Kode Ranking (Jangan ada yang double)

103 UJI RANKING HEDONIK Nama : Tanggal : 24 Maret 2014 Produk : Es Krim Kacang Koro Gude Atribut : Overall Instruksi : Di hadapan Anda terdapat 6 sampel es krim kacang koro gude. Secara keseluruhan (warna, rasa dan tekstur), berilah skor dari yang paling Anda sukai (=6) hingga yang paling tidak Anda sukai (=1). Kode Ranking (Jangan ada yang double)

104 UJI RANKING HEDONIK Nama : Tanggal : 24 Maret 2014 Produk : Es Krim Kacang Koro Gude Atribut : Warna Instruksi : Di hadapan Anda terdapat 6 sampel es krim kacang koro gude. Amati warna masingmasing sampel secara berurutan dari kiri ke kanan. Berilah skor warna pada sampel dari yang paling Anda sukai (=6) hingga yang paling tidak Anda sukai (=1). Kode Ranking (Jangan ada yang double)

105 7.4. Standar Nasional Indonesia untuk es krim (SNI No. 01-3713-1995) No Kriteria Uji Satuan Persyaratan 1 Keadaan 1.1. Penampakan Normal 1.2. Bau Normal 1.3. Rasa Normal 2 Lemak % b/b Min. 5,0 3 Gula dihitung sebagai sukrosa % b/b Min. 8,0 4 Protein % b/b Min. 2,7 5 Jumlah padatan % b/b Min.34 6 Bahan tambahan makanan 6.1. Pewarna tambahan Sesuai SNI 01-0222-1995 6.2. Pemanis buatan Negatif 6.3. Pemantap dan pengemulsi Sesuai SNI 01-0222-1995 7 Cemaran logam Maks. 20,0 7.1. Timbal (Pb) mg/kg Maks. 1,0 7.2. Tembaga (Cu) mg/kg Maks. 20,0 8 Cemaran Arsen (As) mg/kg Maks. 0,5 9 Cemaran mikroba 9.1. Angka lempeng total Koloni/g Maks. 2.10 5 9.2 MPN Coliform APM/g <3 9.3. Salmonella Koloni/25 g Negatif 9.4. Kapang Koloni/25 g Negatif Sumber : SNI